Automotive MOSFET Selection Guide 2015
Automotive MOSFET Selection Guide 2015 Performance, Quality, Reliability Automotive Power MOSFETs Commitment to Quality Designed with automotive in mind } NXP Automotive Power MOSFETs are commonly deployed in many critical applications such as braking, power steering and engine management, where quality and reliability requirements go beyond mere compliance with AEC-Q101 standards. } Product qualification strategies start with a baseline of AEC-Q101, but far exceed its requirements to reflect real automotive mission profiles. } NXP has more than 15 years experience qualifying automotive grade Trench MOSFETs in such applications, resulting in an impressive track record of reliability. } All processes and plants are subject to regular internal audits, as well as TS16949, VDA and specific customer audits. } Global Leadership in Discrete Power MOSFETs for Automotive Applications. } In today’s demanding automotive marketplace only the best will do. Semiconductor components play an increasingly important role in a vehicle’s performance, comfort and reliability. Only suppliers with specialist knowledge and experience can provide the solutions needed to meet the current & future demands of automotive electronics modules and systems. } In the area of power MOSFETs for automotive applications NXP is a clear leader with a dedicated focus on low voltage MOSFET solutions for automotive applications. An indepth understanding of automotive system requirements and focused technical capability enables NXP to provide power semiconductor solutions to meet a wide spectrum of applications. From driving a simple lamp to the sophisticated needs of power management & control in engine, body or chassis applications, NXP power semiconductors can provide the answer to many automotive system power problems. } NXP’s power products are designed and manufactured around the key themes of performance, quality & reliability and are built to withstand long term operation in some of the harshest environments within a typical vehicle. } In addition, by providing a complete technology, device and service capability NXP helps you meet the diverse and rigorous technical demands of today’s automotive power switching and control applications, driving the development of tomorrow’s vehicles and keeping you ahead of the rest. } Our rigorous attention to detail and commitment to automotive quality has resulted in a sub-ppm combined line, field and 0 Km failure rate at Automotive customers. } NXP’s Design for Excellence (DfX) programme ensure each new development builds on past learning and that best practice is always employed, resulting in continual product improvement. } Put simply, NXP gives you the power to meet the challenges of automotive power system design, every step of the way. } Our Zero-Defects culture is supported by a dedicated team of Product Quality, Failure Analysis & Process Engineers at all stages of development & production. Failure analysis is supported by a determination to find real Root Causes and eliminate failure modes with widespread adoption of quality analysis tools and methodologies. } Dedicated design & manufacturing facilities focused on providing automotive quality are at the heart of NXP’s manufacturing set-up. Every process step for automotive products is carried out within NXP’s internal and qualified partner facilities; from silicon & package design, through diffusion to assembly and test. 2 Automotive brochure Automotive brochure 3 4 Steps to select an Automotive MOSFET 1 Select a Voltage e.g. 40 V 2 Select a package, e.g D2PAK High Performance Automotive MOSFETs MOSFET Package Selection Through Hole Surface Mount TO220 } Industry standard } 120 A 3 Choose an RDSon from our extensive range 4 Select a ‘BUK’ type and visit www.nxp.com/automotivemosfets to download datasheets, models and order samples I2PAK } Industry standard } 120 A Automotive Grade MOSFET Naming Convention Premium Performance BUK 7 6 1R6 40 E Segment ’BUK’ for automotive grade Gate drive 7 = Standard level 6 = Intermediate level 9 = Logic level Package: 6 = D2PAK C = D2PAK-7 2 = DPAK E = I2PAK 5 = TO-220 Y = LFPAK56 K = LFPAK56D TrenchMOS technology Space Saving D2PAK-7 } Highest performance } 190 A LFPAK56 } PowerSO8 } 100 A D2PAK } Industry standard } 120 A LFPAK56D } Dual Power-SO8 } 40 A Per Channel A = Generation 2 B = Generation 3 C = Generation 4 E = Generation 6 DPAK } Industry standard } Proven reliability } 100 A Voltage rating BVDSS rating in m 1R5 means <1.5m max at 25 °C SOT223 } Industry standard } Proven reliability All packages are Automotive AEC-Q101 qualified to 175 °C and RoHs compliant. 4 Automotive brochure Automotive brochure 5 D2PAK Family I2PAK/TO-220 D2PAK Family - Premium performance SMD products The NXP D2PAK portfolio is ideally suited for high power automotive application areas such as powertrain and chassis & safety. Combining advanced TrenchMOS technology with high current packaging enables a product that delivers ultra low on-state resistance and thermal performance within an industry standard footprint. NXP offers the broadest range of automotive grade D2PAK across VDS 30V-100V. I2PAK/TO-220 - High performance through-hole products Providing industry leading performance for through hole products NXP’s I2PAK/TO-220 portfolio enables the separation of the electrical and thermal pathways to optimise module performance. The convenience of the tab for screw mounting on the TO-220 is complemented by industry standard footprint and excellent current handling performance. Similarly the I2PAK can be readily soldered down to form a low resistance path. Fully AEC-Q101 qualified to 175 °C Fully AEC-Q101 qualified to 175 °C Clamp or solder mounting Advanced Silicon Technology Multiple stitch bonded source wires } 190A ID max rating } High current transient robustness } Even current sharing } Low resistance PbSnAg soldered die attach Clamp or screw mounting Advanced Silicon Technology } Low resistance PbSnAg soldered die attach } High mechanical reliability High current transient robustness } High mechanical reliability } Pb-Free reflow 245 °C Lowest thermal Industry standard } Pb-Free reflow 245 °C resistance Low thermal resistance footprint for ease of use Separated current from heat paths 100% avalanche screened 100% avalanche screened at at high current for low PPM high current for low PPM POWERTRAIN CHASSIS & SAFETY BODY & SECURITY POWERTRAIN CHASSIS & SAFETY BODY & SECURITY } Engine Control } Electric Power Steering (EPS) } Climate control (HVAC) } Engine Control } Electric Power Steering (EPS) } Climate Control (HVAC) } Gearbox/Clutch } Vehicle Stability (ESP) } Wiper Systems } Engine Fan } Braking Systems (ABS) } Wiper Systems } Engine Fan } Braking Systems (ABS) } Electric Vehicle } Electric Parking Brake (EPB) } Electric Horn } Electric Vehicle } Electric Parking Brake (EPB) } Micro-Hybrid drive } Micro-Hybrid drive } DCDC converters } DCDC converters 6 Automotive brochure Automotive brochure 7 LFPAK56 LFPAK56D LFPAK56 – the Power-SO8 that packs a punch Providing a true alternative to DPAK, NXP’s LFPAK56 portfolio gives industry leading performance in a truly innovative automotive grade package. Saving a considerable amount of space compared to traditional DPAK solutions the LFPAK56 offers designers flexibility and reliability without compromising thermal performance. LFPAK56D – the ultimate dual MOSFET Packing even more into the Power-SO8 footprint the LFPAK56D fits two MOSFETs into one robust package without compromising on performance. NXP’s cutting edge copper clip technology allows for exceptional current handling, ultra low package resistance and supreme robustness and reliability. Perfect for situations where space is at a premium the LFPAK56D offers power performance. Fully AEC-Q101 qualified to 175 °C Wire bond free – low inductance Copper clip – 100A ID max rating Fully AEC-Q101 qualified to 175 °C Copper clip technology for Separate drain low RDS(on) and high robustness connections High current transient robustness Flexible leads for 100% avalanche screened at high current for low PPM improved reliability Dual Power-SO8 footprint compatible Low thermal resistance Exposed leads allow for easy optical inspection Flexible leads for improved Ultra low package resistance Up to 40 A per channel manufacturability, inspectability and reliability Power-SO8 footprint compatible 100% avalanche screened at high current for low PPM LFPAK56D Footprint Comparison Product POWERTRAIN CHASSIS & SAFETY } Engine Management } Vehicle Stability (ESP) } Gearbox/Clutch } Braking Systems (ABS) } Engine Fan } Airbag } Fuel/Water Pump } Electric Parking Brake (EPB) } Auxiliary Valves 8 Automotive brochure Pad Layout Footprint Area BODY & SECURITY } Body Control Module } Climate Control (HVAC) } Wiper Systems } Electric Windows } Electric Mirrors } Electric Seats } Sunroof } Lighting Automotive brochure 9 30 V Automotive MOSFET Package name LFPAK56; Power-SO8 40 V Automotive MOSFET Type number VDS [max] (V) RDSon [max] @ 10 V (mΩ) RDSon [max] @ 5 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK9Y07-30B 30 6 7 75 1.42 BUK7Y07-30B 30 7 75 1.42 BUK9Y11-30B 30 9 59 2 BUK7Y10-30B 30 10 67 1.76 BUK9Y22-30B 30 19 37.7 2.53 BUK7Y20-30B 30 20 39.5 2.53 11 22 Package name Type number VDS [max] (V) RDSon [max] @ 10 V (mΩ) RDSon [max] @ 5 V (mΩ) ID [max] @ 25 °C (A) BUK7K6R2-40E 40 5.8 BUK9K6R2-40E 40 6 6.2 40 2.21 BUK9K6R8-40E 40 6.1 7.2 40 2.36 BUK7K6R8-40E 40 6.8 BUK9K8R7-40E 40 8 BUK7K8R7-40E 40 8.5 BUK9K18-40E 40 16 BUK7K18-40E 40 19 BUK9K25-40E 40 24 Rth(j-mb) [max] (K/W) 2.21 2.36 9.4 30 2.84 LFPAK56D BUK9K5R6-30E 30 4.7 BUK7K5R1-30E 30 BUK9K5R1-30E 5.8 40 2.36 5.1 40 2.21 30 5.1 40 2.21 BUK7K5R6-30E 30 5.6 40 2.36 BUK962R8-30B 30 2.4 75 0.5 BUK762R7-30B 30 2.7 75 0.5 BUK7K25-40E 40 25 BUK763R4-30B 30 3.4 75 0.59 BUK961R6-40E 40 1.4 BUK9607-30B 30 5 75 0.95 BUK761R6-40E 40 BUK7607-30B 30 7 75 0.95 BUK761R7-40E BUK9207-30B 30 5 75 0.95 BUK7207-30B 30 7 75 0.95 BUK952R8-30B 30 2.4 2.8 75 BUK9507-30B 30 5 7 BUK7507-30B 30 7 LFPAK56D D2PAK 2.8 7 7 19.5 29 30 3.96 24.2 3.96 18.2 4.68 4.68 120 0.43 1.57 120 0.43 40 1.6 120 0.46 BUK762R0-40E 40 2 120 0.51 0.5 BUK962R6-40E 40 2.4 100 0.57 75 0.95 BUK762R6-40E 40 2.6 100 0.57 75 0.95 BUK963R1-40E 40 2.7 100 0.64 BUK762R9-40E 40 2.9 100 0.64 BUK964R1-40E 40 3.5 75 0.82 BUK764R0-40E 40 4 75 0.82 BUK965R4-40E 40 4.4 75 1.09 BUK765R3-40E 40 4.9 75 1.09 BUK768R1-40E 40 7.2 75 1.56 BUK9209-40B 40 7 75 0.95 BUK7208-40B 40 8 75 0.95 BUK751R8-40E 40 1.8 120 0.43 BUK752R3-40E 40 2.3 120 0.51 BUK753R1-40E 40 3.1 100 0.64 DPAK TO-220AB 2.84 D2PAK 1.6 2.8 3.1 Types in bold red represent new products 40 V Automotive MOSFET Package name Type number VDS [max] (V) RDSon [max] @ 10 V (mΩ) BUK9Y2R4-40E 40 2.4 BUK7Y2R4-40E 40 2.4 BUK9Y3R0-40E 40 2.5 BUK7Y3R0-40E 40 3 RDSon [max] @ 5 V (mΩ) 3 ID [max] @ 25 °C (A) 100 4.1 Rth(j-mb) [max] (K/W) 0.77 5.4 9 DPAK LFPAK56; Power-SO8 BUK7Y3R5-40E 40 3.5 BUK9Y3R5-40E 40 3.6 BUK9Y4R4-40E 40 3.7 BUK7Y4R4-40E 40 4.4 BUK9Y7R6-40E 40 6 BUK7Y7R6-40E 40 7.6 BUK9Y12-40E 40 10 BUK7Y12-40E 40 12 BUK9Y21-40E 40 17 BUK7Y21-40E 40 21 BUK9Y29-40E 40 25 BUK7Y29-40E 40 29 100 0.9 3.8 100 0.9 4.4 100 1.02 100 1.02 79 1.58 79 1.58 BUK758R3-40E 40 7.4 75 1.56 52 2.31 BUK7E1R8-40E 40 1.8 120 0.43 52 2.31 BUK7E1R9-40E 40 1.9 120 0.46 33 3.33 BUK7E2R3-40E 40 2.3 120 0.51 33 3.33 25 4.03 BUK7E3R1-40E 40 3.1 100 0.64 26 4.03 BUK7E8R3-40E 40 7.4 75 1.56 7.6 12 21 TO-220AB I2PAK 29 Types in bold green represent products in development 10 Automotive brochure Automotive brochure 11 55-60 V Automotive MOSFET Package name LFPAK56; Power-SO8 55-60 V Automotive MOSFET Type number VDS [max] (V) RDSon [max] @ 10 V (mΩ) RDSon [max] @ 5 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) Type number VDS [max] (V) RDSon [max] @ 10 V (mΩ) BUK9Y4R8-60E 60 4.1 4.8 100 0.63 BUK763R9-60E 60 3.9 BUK7Y4R8-60E 60 4.8 100 0.63 BUK964R8-60E 60 4.4 BUK764R4-60E 60 4.5 BUK966R5-60E 60 5.9 BUK766R0-60E 60 6 8 BUK9Y6R0-60E 60 5.2 6 100 0.77 BUK9Y7R2-60E 60 5.6 7.2 100 0.9 Package name D2PAK BUK7Y6R0-60E 60 6 100 0.77 BUK7Y7R2-60E 60 7.2 100 0.9 BUK969R0-60E 60 BUK9Y8R7-60E 60 7.5 86 1.02 BUK768R3-60E 60 8.3 87 1.02 BUK9614-60E 60 12.8 53 1.58 BUK7Y8R7-60E 60 8.7 BUK9Y15-60E 60 13 BUK7Y15-60E 60 15 BUK9Y25-60E 60 21.5 BUK7Y25-60E 60 25 BUK9Y43-60E 60 38 BUK7Y43-60E 60 43 BUK9Y59-60E 60 52 BUK7Y59-60E 60 59 BUK7K12-60E 60 9.3 BUK7K13-60E 60 10 8.7 15 25 43 59 53 1.59 34 2.31 34 2.31 22 3.33 22 3.33 16.7 4.03 17 4.03 2.21 40 2.36 BUK9K12-60E 60 10.7 11.5 35 2.21 BUK9K13-60E 60 11.20 12.5 40 2.36 BUK7K17-60E 60 14 BUK9K17-60E 60 15.6 BUK7K35-60E 60 30 BUK9K35-60E 60 32 BUK7K52-60E 60 45 BUK9K52-60E 60 49 BUK7610-55AL 55 10 BUK9620-55A 55 18 BUK7620-55A 55 20 BUK9624-55A 55 21.7 BUK7624-55A 55 24 BUK9628-55A 55 25 BUK7628-55A 55 28 BUK9635-55A 55 32 BUK7635-55A 55 35 BUK9675-55A 55 68 DPAK 2.84 LFPAK56D 17 35 55 20 24 26 2.84 20.7 3.96 22 3.96 15.4 4.68 16 4.68 75 0.5 54 1.2 54 1.2 46 1.4 BUK7675-55A 55 75 60 2.3 BUK762R4-60E 60 2.4 BUK962R8-60E 60 2.5 BUK762R6-60E 60 2.6 BUK963R3-60E 60 3 BUK763R1-60E 60 3.1 BUK964R2-60E 60 3.9 Types in bold red represent new products 12 Automotive brochure 4.8 6.5 9 14 ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) 100 0.57 100 0.64 100 0.64 75 0.82 75 0.82 75 1.09 75 1.09 56 1.56 58 1.56 75 0.95 BUK7613-60E 60 13 BUK9212-55B 55 10 BUK7210-55B 55 10 75 0.95 BUK7212-55B 55 12 75 0.95 BUK9215-55A 55 13.6 62 1.3 BUK7215-55A 55 15 62 1.3 BUK9219-55A 55 17.6 55 1.3 BUK7219-55A 55 19 55 1.3 BUK9222-55A 55 20 22 48 1.5 BUK9225-55A 55 22 25 43 1.6 BUK7222-55A 55 22 48 1.5 BUK7225-55A 55 25 43 1.6 BUK9230-55A 55 27 38 1.7 BUK7230-55A 55 30 BUK9237-55A 55 33 BUK7237-55A 55 37 BUK9245-55A 55 40 45 BUK9277-55A 55 69 77 BUK7277-55A 55 77 BUK92150-55A 55 125 BUK72150-55A 55 150 BUK9214-60E 60 14 BUK9225-60E 60 25 BUK953R5-60E 60 3.4 BUK954R8-60E 60 4.5 BUK7E2R6-60E 60 BUK7E3R5-60E BUK7E4R6-60E 12 15 19 30 38 1.7 32 1.94 32.3 1.9 28 2.1 18 2.93 18 2.9 11 4.1 11 4.1 3.7 120 0.51 4.9 100 0.64 2.6 120 0.43 60 3.5 120 0.51 60 4.6 100 0.64 58 1.56 37 140 47 28 42 1.5 42 35 TO-220AB 34 1.8 35 1.7 20 2.4 D2PAK BUK962R5-60E RDSon [max] @ 5 V (mΩ) 75 2.5 2.8 3.3 4.2 20.3 2.4 120 0.43 120 0.43 BUK7E13-60E 60 13 120 0.46 BUK9832-55A 55 29 32 12 120 0.46 BUK9880-55A 55 73 80 7 120 0.51 150 5.5 I2PAK SC-73 BUK7880-55A 55 80 55 137 55 150 120 0.51 BUK98150-55A 100 0.57 BUK78150-55A 7 5.5 Types in bold green represent products in development Automotive brochure 13 75-80 V Automotive MOSFET Package name Type number VDS [max] (V) RDSon [max] @ 10 V (mΩ) BUK7Y7R8-80E 80 7.8 BUK9Y8R5-80E 80 8 BUK7Y9R9-80E 80 9.9 BUK9Y11-80E 80 10 BUK9Y14-80E LFPAK56; Power-SO8 D2PAK 100 V Automotive MOSFET 80 14 BUK7Y14-80E 80 14 BUK9Y25-80E 80 25 BUK7Y25-80E 80 RDSon [max] @ 5 V (mΩ) 8.5 11 15 27 25 BUK9Y41-80E 80 41 BUK7Y41-80E 80 41 BUK9Y72-80E 80 72 BUK7Y72-80E 80 72 BUK9Y107-80E 80 98 BUK7Y98-80E 80 BUK7613-75B BUK9616-75B ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) 100 0.63 100 0.63 89 0.77 84 0.77 62 45 78 107 1.02 65 1.02 37 1.58 39 24 2.33 25 2.31 15 16 RDSon [max] @ 5 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK9Y12-100E 100 11.9 12 85 0.63 BUK7Y12-100E 100 12 85 0.63 BUK9Y15-100E 100 14.7 69 0.77 BUK7Y15-100E 100 15 68 0.77 BUK9Y19-100E 100 18 56 0.9 BUK7Y19-100E 100 19 BUK9Y22-100E 100 21.5 BUK7Y22-100E 100 22 BUK9Y38-100E 100 37.5 BUK7Y38-100E 100 38 BUK9Y65-100E 100 63.3 4.03 BUK7K29-100E 100 24.5 29.5 2.21 27 75 14 67 0.95 1.1 BUK763R8-80E 80 3.8 120 0.43 BUK964R2-80E 80 4 120 0.43 BUK7214-75B 75 14 BUK9217-75B 75 15 11 17 120 0.46 120 0.46 75 0.82 75 75 75 80 24.6 26 4 26 0.95 64 0.95 45 120 LFPAK56D 0.82 69 45 4.03 9.4 27.5 10 3.33 9.4 153 100 80 3.33 12 100 100 9.6 2.31 12 BUK7Y153-100E BUK9K29-100E 80 19 146 BUK7K32-100E BUK769R6-80E 2.31 100 0.95 4.7 1.58 19 BUK9Y153-100E 75 4.5 1.58 30 3.33 13 80 1.02 30 113 75 BUK964R7-80E 49 100 4.03 4.2 65 1.02 BUK7Y113-100E 12.3 80 38 0.9 49 3.33 98 BUK764R2-80E 22 56 65 4.03 4.2 19 110 11.8 16.4 15 100 53 BUK753R8-80E RDSon [max] @ 10 V (mΩ) 100 DPAK TO-220AB VDS [max] (V) BUK7Y65-100E 23 BUK7226-75A Type number BUK9Y113-100E 75 BUK9226-75A LFPAK56; Power-SO8 1.58 BUK7623-75A BUK9611-80E Package name 1.3 D PAK 2 1 0.43 BUK9K32-100E 100 31 BUK7K45-100E 100 37.6 BUK9K45-100E 100 42 BUK7K89-100E 100 82.5 113 153 29 33 45 BUK9K89-100E 100 85 BUK7K134-100E 100 121.0 89 BUK9K134-100E 100 154 BUK765R0-100E 100 5 BUK965R8-100E 100 5.6 BUK768R1-100E 100 8.1 BUK969R3-100E 100 8.9 BUK7613-100E 100 13 BUK9615-100E 100 14 BUK7631-100E 100 31 BUK9637-100E 100 36 37 BUK9660-100A 100 58 60 BUK7660-100A 100 60 BUK9675-100A 100 72 BUK7675-100A 100 75 BUK96180-100A 100 173 BUK7227-100B 100 27 159 5.8 9.3 15 75 180 30 2.21 27 2.36 26 2.36 21.4 2.84 21 2.84 13 3.96 12.5 3.96 9.8 4.68 8.5 4.68 120 0.43 120 0.43 100 0.57 100 0.57 72 0.82 66 0.82 34 1.56 31 1.56 26 1.4 26 1.4 23 1.5 23 1.5 11 2.8 48 0.95 BUK9230-100B 100 28 30 47 0.95 BUK9240-100A 100 38.6 40 33 1.3 BUK7240-100A 100 40 34 1.3 BUK9275-100A 100 72 21.7 1.7 BUK7275-100A 100 75 21.7 1.7 BUK9216-100E 100 BUK9236-100E 100 BUK9875-100A 100 72 75 7 BUK98180-100A 100 173 180 4.6 TO-220AB BUK755R4-100E 100 5.2 120 0.43 I2PAK BUK7E5R2-100E 100 5.2 120 0.43 DPAK SC-73 75 16.0 36.0 Types in bold red represent new products - Types in bold green represent products in development 14 Automotive brochure Automotive brochure 15 TrenchPLUS MOSFETs 16 40 5 75 40 5 75 40 5 75 40 6 75 ● 40 6,6 75 ● ● ● BUK9107-40ATC BUK9907-40ATC 40 8 75 ● ● ● BUK7107-40ATC BUK7907-40ATC 40 8 75 BUK7108-40AIE BUK7908-40AIE Automotive brochure 7 Gate Resistor ● Gate Drain Clamps 75 Gate Source Clamps 4.1 Current Sensing 40 RDSon (max) @ 5 V (mΩ) Temperature Sense 5-pin TO220 (SOT263B-01) ID (max) @ 25 °C (A) TO220AB (SOT78C) RDSon (max) @ 10 V (mΩ) 5-pin D2PAK (SOT426) VDS (V) 7-pin D2PAK (SOT427) Leaded Package 10.0 x 15 x 4.5 10.0 x 15.0 x 4.5 15.0 x 10.0 x 4.5 10.0 x 19.0 x 4.5 BUK714R1-40BT ● ● ● BUK7105-40AIE BUK7905-40AIE ● BUK7105-40ATE BUK7905-40ATE BUK7905-40AI ● ● ● ● BUK7C06-40AITE 55 6,6 7 75 ● 55 7 75 55 7 75 ● 55 8 75 ● ● 55 9 75 ● ● 75 9 75 75 9 75 ● 75 10 75 ● 10 ● ● ● Gate Resistor Surface Mount Package Gate Drain Clamps Custom versions can be developed for high-volume applications. Gate Source Clamps diodes. The system microcontroller can use data gathered from Current Sensing standard products listed below offer one or more “PLUS” features. Temperature Sense components, overvoltage clamps, and gate protection (ESD) Surface Mount Package ID (max) @ 25 °C (A) eliminating the need to design with protected power devices. All the RDSon (max) @ 5 V (mΩ) these sensors to implement cost-effective protection features, thus protection features, such as current and temperature sensing RDSon (max) @ 10 V (mΩ) TrenchPLUS is a range of standard MOSFETs with additional VDS (V) TrenchPLUS MOSFETs Leaded Package 7-pin D2PAK (SOT427) 5-pin D2PAK (SOT426) TO220AB (SOT78C) 5-pin TO220 (SOT263B-01) 10.0 x 15 x 4.5 10.0 x 15.0 x 4.5 15.0 x 10.0 x 4.5 10.0 x 19.0 x 4.5 ● BUK9107-55ATE ● BUK7107-55AIE BUK7907-55AIE ● BUK7107-55ATE BUK7907-55ATE ● BUK7109-75AIE BUK7909-75AIE ● BUK7109-75ATE BUK7909-75ATE ● BUK7C08-55AITE BUK9C10-55BIT ● BUK7C10-75AITE Automotive TrenchPLUS Part Numbering Automotive brochure 17 Electric Windows Electric Sunroof Automatic Trunk Climate Control (HVAC) Electric Mirrors Fuel Pump Wiper Systems Battery Management Electric Parking Brake Water Pump Electric Seat Control Oil Pump Electric Power Steering (EPS) Engine Management Start-Stop Integrated Transmission Starter-Alternator Cooling Fan Lighting 18 Automotive brochure Braking (ABS, ESP) Automotive brochure 19 Engine Management Braking (ABS) LFPAK56 (Single & Dual Power-SO8) MOSFETs are ideally suited to provide compact and thermally stable solutions for injection applications. LFPAK56 (Single & Dual Power-SO8) MOSFETs are ideally suited to provide compact and thermally stable solutions for braking systems. Main benefits: } Robust product using advanced copper clip technology } Excellent current handling } Compact footprint } Repetitive avalanche rated Main benefits: } Robust product using advanced copper clip technology } Excellent current handling } Compact footprint Example products in LFPAK56 (single and dual) Example products in LFPAK56 (single and dual) VDS [max] (V) RDSon [max] @ 10 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK9K52-60E 60 49 16 4.68 BUK9Y41-80E 80 41 24 2.33 BUK9K29-100E 100 27 30 2.21 BUK9Y38-100E 100 38 30 1.58 Product Application Considerations Typical diesel injector drive VDS [max] (V) RDSon [max] @ 10 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK9Y3R0-40E 40 2.5 100 0.77 BUK9K6R2-40E 40 6 40 2.21 BUK9Y4R8-60E 60 4.1 100 0.63 BUK9Y59-60E 60 52 16.7 4.03 Product Application Considerations Injector/valve controllers form a building block within both Anti-locking braking systems are used on most vehicles to diesel and gasoline engine control modules to deliver optimum maintain contact with the road surface and prevent skidding fuel consumption. The injectors are controlled by a complex in poor braking conditions such as icy or wet roads. ‘peak and hold’ current control. The “peak” current opens the valve and the “hold” current maintains the valve in the open A pump motor is used to re-pressurize the systems when the position. ABS system operates. Typically a single MOSFET is used for one direction ON-OFF pump motor control with PWM used Diesel Injection: Various topologies are used, but are usually to give speed control. No freewheel diode used in high-side differentiated by those that apply a boost voltage and those version with the MOSFET clamping (linear mode) when the that don’t. motor is switched off. Gasoline Injection: The main configurations are ‘multi-point’ Solenoids are used for controlling brake pressure. Low-side and ‘direct’ injection. The circuit topology is similar to that of MOSFETs are used for solenoid driving and body diode is diesel injectors. avalanched to improve solenoid drop out time. The MOSFET must be avalanche rugged. D2PAK MOSFETs can provide solutions for several power handling tasks. Driving the main pump motor, as the safety switch, or to handle reverse polarity protection tasks. The pump motor drive device could be a 40 V low RDSon MOSFET. Main benefits: } Low on-resistance } Low thermal resistance } Highest current handling capability Example Products in D2PAK Product VDS [max] (V) RDSon [max] @ 10 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK762R0-40E 40 2 120 0.51 BUK762R9-40E 40 2.9 100 0.64 BUK762R4-60E 60 2.4 120 0.43 BUK763R1-60E 60 3.1 120 0.51 Typical solenoid driver circuit Key MOSFET Requirements: } High lifetime reliability Reverse polarity protection can be added using another } High current transient robustness single MOSFET with a simple gate drive. } Good thermal performance The safety switch MOSFET is normally continuously ON. } Small footprint } Guaranteed repetitive avalanche capability 20 Automotive brochure Automotive brochure 21 Electric Power Steering (EPS) Transmission D2PAK is ideally suited to provide high power density and surge current capability required for power steering systems. LFPAK56 (Single & Dual Power-SO8) is ideally suited to provide compact and thermally stable solutions for transmission applications. Main benefits: } Lowest on-resistance } Lowest thermal resistance } Highest current handling capability } Guaranteed repetitive avalanche rating Main benefits: } Robust product using advanced copper clip technology } Excellent current handling } Compact footprint Example products in LFPAK56 (single and dual) Example Products in D2PAK EPS systems often use brushless DC motors to provide the additional torque to the steering system for their compact size and lower system cost compared to equivalent mechanical solutions. They also provide improved performance, longer lifetimes, reduced noise, increased reliability and ease of installation. Motor power depends on vehicle size and performance. MOSFETs are configured in 3-phase bridge arrangements to drive the BLDC motor. The system must be capable of handling worst-case current and thermal surges caused by the torque assistance pulses. Key MOSFET Requirements: } Low on-resistance } Low thermal resistance } High surge current capacity } Flexible packaging solutions } Guaranteed repetitive avalanche capability 22 Automotive brochure RDSon [max] @ 10 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK7Y3R5-40E 40 3.5 100 0.9 0.46 BUK7Y4R4-40E 40 4.4 100 1.02 120 0.51 BUK9K52-60E 60 49 16 4.68 2.9 100 0.64 4 75 0.82 3.8 120 0.43 RDSon [max] @ 10 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK761R6-40E 40 1.57 120 0.43 BUK761R7-40E 40 1.6 120 BUK762R0-40E 40 2 BUK762R9-40E 40 BUK764R0-40E 40 BUK763R8-80E 80 Product Application Considerations Electric power steering (EPS) systems amplify the driver’s steering responses to make steering easier. VDS [max] (V) VDS [max] (V) I2PAK & TO-220 provide flexible solutions for power steering systems where through-hole mounting is adopted. Main benefits: } Separate current and thermal paths } Clamp, screw or solder mounting } Low on-resistance } High current handling capability Example Products in I PAK & TO-220 VDS [max] (V) RDSon [max] @ 10 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK7E1R9-40E 40 1.9 120 0.46 BUK753R1-40E 40 3.1 100 0.64 Typical 3-phase motor controller D2PAK MOSFETs can provide solutions for motor drive tasks within transmission systems. Application Considerations Transmission systems distribute the power from the engine to the wheels. The system consists of a clutch, gearbox (manual or automatic), differential and final drive shaft. The actuators used in these systems are either solenoids or brushless DC motors. Gear Selectors: MOSFET are used to drive solenoids that control electro-hydraulic valves or light linear mechanical loads within the gearbox to operate gear changes. 2 Product Product Clutch Control: Modern clutch systems such as dual clutch control typically use Brushless DC motors controlled by MOSFETs. Electric motors for transmission control often need accurate speed, direction and position control. The control MOSFETs are often situated in the gearbox. Main benefits: } Low on-resistance } Low thermal resistance } Guaranteed repetitive avalanche rating Example Products in D2PAK VDS [max] (V) RDSon [max] @ 10 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK761R6-40E 40 1.57 120 0.43 BUK762R0-40E 40 2 120 0.51 BUK762R6-60E 60 2.6 120 0.46 BUK763R8-80E 80 3.8 120 0.43 BUK764R2-80E 80 4.2 120 0.46 Product Typical 3-phase motor controller Key MOSFET Requirements: } Stable performance at elevated temperatures } Compact package } Good current handling capability } Low on-resistance Automotive brochure 23 Climate Control (HVAC) Integrated Starter Generator LFPAK56 is well suited to HVAC applications due to excellent current handling and thermal performance. D2PAK is ideal for integrated starter generator applications with ultra low on-resistance and high current transient robustness. Main benefits: } Robust product using advanced copper clip technology } Excellent current handling } Low on-resistance Main benefits: } Lowest on-resistance } Lowest thermal resistance } Highest current handling capability } Guaranteed repetitive avalanche rating Example products in LFPAK56 (single and dual) VDS [max] (V) RDSon [max] @ 10 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK7Y3R5-40E 40 3.5 100 0.9 BUK7Y4R4-40E 40 4.4 100 1.02 BUK7Y4R8-60E 60 4.8 100 0.63 BUK7Y7R8-80E 80 7.8 100 0.63 Product Application Considerations The heating, ventilation, and air conditioning (HVAC) system regulates the temperature and quality of the air inside the vehicle cabin. This is often referred to as climate control. The electrically controlled elements are the blower fan motor and flap valves that divert the airflow. The blower fan motor is usually a simple brushed DC motor, with its speed controlled by a MOSFET operating in PWM or linear mode. The flap valves are usually controlled by an integrated IC. Key MOSFET Requirements: } Switching capability for PWM control } Low package thermal resistance } Low on-resistance } Good current handling Typical linear mode fan controller I PAK & TO-220 are ideal solutions for HVAC systems where through-hole mounting is used optimise thermal performance and current handling. 2 Example products in D2PAK Application Considerations Integrated starter generator systems provide start-stop functionality and torque boost capability to reduce the emissions of modern vehicles. Main benefits: } Separate current and thermal paths } Clamp, screw or solder mounting } Low on-resistance } High current handling capability In “alternator mode” the system acts as a regenerative brake. Whilst in “motor mode” it is used to start the engine and provide torque assistance. Example products in I2PAK & TO-220 MOSFETs are used to drive highly reliable Brushless DC motors. RDSon [max] @ 10 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK761R6-40E 40 1.57 120 0.43 BUK761R7-40E 40 1.6 120 0.46 BUK763R8-80E 80 3.8 120 0.43 BUK765R0-100E 100 5 120 0.43 Typical 3-phase motor controller VDS [max] (V) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) BUK753R1-40E 40 3.1 100 0.64 BUK753R8-80E 80 3.8 120 0.43 BUK7E3R1-40E 40 3.1 100 0.64 BUK7E4R6-60E 60 4.6 100 0.64 Key MOSFET Requirements: } Ultra low on-resistance } Low thermal resistance } Safe high temperature operation } Excellent current handling } Guaranteed repetitive avalanche capability GATE DRIVE 3 phase brushless machine MOSFET MOSFET MOSFET GATE DRIVE GATE DRIVE GATE DRIVE GATE DRIVE MOSFET MOSFET MOSFET RDSon [max] @ 10 V (mΩ) Product VDS [max] (V) Product 2 1 1 2 2 1 battery 14 V GATE DRIVE brb325 BUK7610-55AL is specifically designed for thermally stable linear mode control applications. Example Products in D2PAK Product BUK7610-55AL 24 Automotive brochure VDS [max] (V) RDSon [max] @ 10 V (mΩ) ID [max] @ 25 °C (A) Rth(j-mb) [max] (K/W) 55 10 75 0.5 Automotive brochure 25 Notes Automotive Lighting Main benefits: } Robust product using advanced copper clip technology. } Low on-state losses } Low switching losses } Compact footprint Example products in LFPAK56 (single and dual) NXP offers a broad range automotive grade MOSFETs in LFPAK56 footprint beyond what is shown in the table below to provide flexibility to designers. VDS [max] [V] RDSon [max] @ 10 V [mΩ] ID [max] @ 25 °C [A] Rth(j-mb) [max] [K/W] BUK9K25-40E 40 24 18 4.68 BUK9Y29-40E 40 25 25 4.03 BUK9Y59-60E 60 52 17 4.03 BUK9Y25-80E 80 25 37 1.58 BUK9Y41-80E 80 41 24 2.33 BUK9Y38-100E 100 38 30 1.58 BUK9K45-100E 100 42 21 2.84 Product Application Considerations Headlights deliver a variety of functions for the driver including high beam, low beam, fog lights, daylight running indicators and parking lights. Similarly, rear clusters provide illumination for braking, reversing, fog lights, or indicators. Light Emitting Diodes (LED) are becoming more widespread in modern vehicles to deliver exterior and interior illumination. Typical 2-channel controller The key advantages of LEDs over convention halogen bulbs are their high luminance/Watt, small size and reliability which has opened up design possibilities for engineers. Headlight and rear light clusters can be illuminated by strings of LEDs controlled by a dedicated driver configured in a boost or boost/buck DCDC converter topology. The power dissipation of individual LED strings can reach >40W in a confined space, so MOSFETs with good switching performance combined with low on-state losses are required. Due to the space constraints and often limited heat sinking, products with low thermal impedance are also desirable. The longer the string of series connected LEDs the greater the VDS of the MOSFET required to control them. Interior lights and backlit LCD where the power requirements are lower can be addressed by our large portfolio of LFPAK56 and LFPAK56D devices. LFPAK56 (Single & Dual Power-SO8) MOSFETs are ideally suited to provide compact and thermally stable solutions for automotive lighting applications. 26 Automotive brochure http://www.nxp.com/applications/automotive/automotivelighting-solutions.html Follow us on twitter @mosfets www.nxp.com/automotivemosfets www.nxp.com © 2015 NXP Semiconductors N.V. All rights reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent- or other industrial or intellectual property rights. Date of release: March 2015 Document order number: 9397 750 17643 Printed in the Netherlands
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