Power Management
                                                                                                                                      Selection Guide 2006
Philips Semiconductors
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Document order number: 9397 750 15501
Date of release: January 2006
Published in the Netherlands

Table of contents 4 Power MOSFETs 18 Automotive MOSFETs 24 Automotive Intelligent Power 26 Power Bipolar Transistors 28 Complex Discretes 31 Low VF (MEGA) Schottky rectifiers 32 Bipolar Small-Signal Transistors 36 SCRs,Triacs and Trigger Devices 39 Diodes and Rectifiers 42 Linear Voltage Regulators 43 Lighting ICs 44 Power Conversion 46 Applying Power Semiconductors

Power MOSFETs 20 V - 60 V N-CHANNEL MOSFETS types in bold red represent new products VDS MAX MAX MAX MAX ID D2PAK D-PAK SO8 LFPAK I-pak TO220AB TO247 (V) RDS(ON) RDS(ON) RDS(ON) RDS(ON) (max) (SOT404) (SOT428) (SOT96) (SOT669) (SOT533) (SOT78) (SOT429) @10V @5V @4.5V @2.5V @ 25C (mΩ) (mΩ) (mΩ) (mΩ) (A) 20 2.5 3.2 121 PH2520U 20 2.65 3.7 100 PH3120L 20 5 5.7 32 PSMN006-20K 20 16 30 38 PHB38N02LT PHD38N02LT 25 2.6 2.9 75 PSMN002-25B PSMN002-25P 25 2.9 3.7 113 PH2925U 25 2.8 4.1 100 PH2625L 25 3.2 3.5 4 100 PSMN003-25W 25 4 5 75 PHB152NQ03LTA PHP152NQ03LTA 25 4.6 6.2 75 PHD110NQ03LT 25 4.95 7.5 75 PHB96NQ03LT PHD96NQ03LT PHP96NQ03LT 25 5.8 7.5 75 PSMN005-25D 25 5.9 7.3 75 PHB98N03LT PHD98N03LT 25 6 7.5 75 PHB108NQ03LT PHD108NQ03LT PHU108NQ03LT 25 6.3 9.5 78 PH6325L 25 9 12 75 PHP83N03LT 25 9 13.5 75 PHB78NQ03LT PHD78NQ03LT PHU78NQ03LT PHP78NQ03LT 25 10.5 13.6 66 PHB66NQ03LT PHD66NQ03LT PHU66NQ03LT PHP66NQ03LT 25 14 18 55 PHB55N03LTA PHD55N03LTA PHP55N03LTA 25 21 24 45 PHB45N03LTA PHD45N03LTA PHP45N03LTA 30 2.8 4 75 PSMN003-30B PSMN003-30P 30 3.2 6.5 107 PH3230S 30 3.3 4.6 100 PH3330L 30 3.8 4.9 98 PH3830L 30 4.6 5.9 31 PHK31NQ03LT 30 5.5 7 75 PHD101NQ03LT PHU101NQ03LT PHP101NQ03LT 30 5.5 8 20 PSMN005-30K 30 5.7 7.2 80 PH4530L 30 5.7 8.5 80 PH5330E 30 5.9 9.7 70 PH8030L 30 6.5 7.7 28 PHK28NQ03LT 30 7.9 10 11 68 PH7030L 30 8 10 75 PHD82NQ03LT 30 8.2 13.2 67 PH8230E 30 8.7 12.8 12.5 PHK18NQ03LT 30 10 15.2 71 PHD71NQ03LT PHP71NQ03LT 30 10.5 14 12 PHK12NQ03LT 30 13 17.7 63 PHD63NQ03LT PHP63NQ03LT 30 16.9 23.5 47 PH16030L 30 20 26 13 PHD36N03LT PHK13N03LT 30 67 100 16 PHD16N03LT 30 100 16 PHD16N03T 36 4 5 5.4 75 PSMN004-36B 40 2.8 3.2 3.5 75 PHB222NQ04LT PHP222NQ04LT 40 3.1 75 PHB225NQ04T PHP225NQ04T 40 4 4.4 4.8 75 PHB174NQ04LT PHP174NQ04LT 40 4.1 94 PH4840S 40 4.3 75 PHB176NQ04T PHP176NQ04T 40 5 6.4 7.1 75 PHB129NQ04LT PHP129NQ04LT 40 5.2 75 PHB143NQ04T PHP143NQ04T 40 7 9 10 75 PHB95NQ04LT 40 7.7 9.2 24 PHK24NQ04LT 40 8 75 PHB101NQ04T PHP101NQ04T 55 3.7 4.2 4.4 75 PHB191NQ06LT PHP191NQ06LT 55 4 75 PHB193NQ06T PHP193NQ06T 55 4.2 4.5 5 100 PSMN004-55W 55 5.4 6 6.4 75 PHB146NQ06LT 4 5

Power MOSFETs 20 V - 60 V N-CHANNEL MOSFETS VDS MAX MAX MAX MAX ID D2PAK D-PAK SO8 LFPAK I-pak TO220AB TO247 (V) RDS(ON) RDS(ON) RDS(ON) RDS(ON) (max) (SOT404) (SOT428) (SOT96) (SOT669) (SOT533) (SOT78) (SOT429) @10V @5V @4.5V @2.5V @ 25C (mΩ) (mΩ) (mΩ) (mΩ) (A) 55 5.8 6.3 6.7 75 PSMN005-55B PSMN005-55P 55 6 75 PHB145NQ06T 55 7 8.4 9.3 75 PHB110NQ06LT PHP110NQ06LT 55 7.1 75 PHB119NQ06T PHP119NQ06T 55 8 75 PHB112N06T PHP112N06T 55 8.3 9.9 85 PH955L 55 10.5 12 13 75 PSMN010-55D 55 16 19 21 60 PH1955L 55 20 54 PHP54N06T 55 32 35 37 PHD37N06LT 55 36 40 45 40 PH3855L 55 70 75 19 PHB21N06LT PHD21N06LT PHP21N06LT 55 75 20 PHB20N06T PHP20N06T 55 77 18 PHD20N06T 55 130 150 10.3 PHB11N06LT 60 3.6 75 PSMN004-60B PSMN004-60P 60 14 73 PHB73N06T PHP73N06T 60 22 52 PHP52N06T 60 37 40 43 32 PHB32N06LT PHP32N06LT 60 150 10.3 PHD3055E PHP3055E These products have been designed and qualified for use in computing, communications, consumer and industrial applications For application examples please see: LFPAK for DC/DC converters on page 49 PDA Backlight Supply on page 50 Active load circuit in DC/DC conversion on page 50 Buck conversion for high-end graphics cards (VGA) on page 51 Power switching in CCFL resonant inverters on page 51 Low voltage DC motor control on page 52 6 7

Power MOSFETs 75 V - 200 V N-CHANNEL MOSFETS types in bold red represent new products VDS MAX MAX MAX QGD ID D2PAK DPAK SO8 LFPAK I PAK TO220AB SOT186A TO247 (V) RDS(ON) RDS(ON) RDS(ON) (typ) (max) (SOT404) (SOT428) (SOT96) (SOT669) (SOT533) (SOT78) (isol TO220AB) (SOT429) @10V @5V @4.5V (nC) @ 25C (mΩ) (mΩ) (mΩ) (A) 75 5 50 75 PSMN005-75B PSMN005-75P 75 5.5 6.1 6.6 37 75 PHB153NQ08LT PHP153NQ08LT 75 5.6 28 75 PHB160NQ08T PHP160NQ08T 75 8.5 9 9.95 54.5 75 PHB110NQ08LT PHP110NQ08LT 75 8.5 50 75 PSMN008-75B PSMN008-75P 75 9 48.2 75 PHB110NQ08T PHP110NQ08T 75 13 15 75 PHP75NQ08T 75 16 16.4 18 14 73 PHP79NQ08LT 75 16.5 18 20 15.3 46 PH1875L 75 28 30 34 9 30 PH3075L 75 34.5 16 25 PH3475S 75 51 9 27 PHB29N08T PHP29N08T 100 8.8 44 75 PSMN009-100B PSMN009-100P 100 9 91 100 PSMN009-100W 100 15 50 75 PSMN015-100B PSMN015-100P 100 15 50 80 PHW80NQ10T 100 23 9 34 PH20100S 100 25 25 47 PHB45NQ10T PSMN025-100D PHP45NQ10T 100 25 25 47 PHP45NQ10TA 100 28 25 47 PHB47NQ10T PHP47NQ10T 100 28 9 12 PHK12NQ10T 100 38 14 5.2 PSMN038-100K 100 40 18 34 PHD34NQ10T 100 50 12 28 PHB27NQ10T 100 70 10 23 PHD23NQ10T PHX23NQ10T 100 70 10 4 PHK4NQ10T 100 70 10 23 PHB23NQ10LT 100 90 8 18 PHB18NQ10T PHD18NQ10T PHP18NQ10T 100 180 5 11 PHU11NQ10T 105 25 25 47 PHP45NQ11T 110 15 50 75 PSMN015-110P 110 25 25 30.4 PHX45NQ11T 110 40 18 35 PHP34NQ11T 110 40 18 24.8 PHX34NQ11T 110 50 12 28 PHP27NQ11T 110 50 12 20.8 PHX27NQ11T 110 70 10 23 PHP23NQ11T 110 70 10 16 PHX23NQ11T 110 90 8 18 PHP18NQ11T 110 90 12.5 PHX18NQ11T 110 180 5.3 7.5 PHX8NQ11T 150 25 91 73 PSMN020-150W 150 30 38 55.5 PSMN030-150B PSMN030-150P 150 35 33 50 PSMN035-150B PSMN035-150P 150 42 10.3 33 PHB45NQ15T PHP45NQ15T 150 63 20 29 PSMN063-150D PHP30NQ15T 150 65 7.7 28 PHP28NQ15T 150 75 80 12 5.5 PHK5NQ15T 150 85 14 3.5 PSMN085-150K 150 200 8 12.5 PHP12NQ15T 200 40 73 50 PSMN040-200W 200 57 37 39 PSMN057-200B PSMN057-200P 200 70 28 35 PSMN070-200B PSMN070-200P 200 77 9.6 25 PHB33NQ20T PHP33NQ20T 200 120 8.9 22 PHD22NQ20T 200 130 22 20 PHB20NQ20T PSMN130-200D PHP20NQ20T 200 130 8.7 4 PHK4NQ20T 8 9

Power MOSFETs 75 V - 200 V N-CHANNEL MOSFETS VDS MAX MAX MAX QGD ID D2PAK DPAK SO8 LFPAK I PAK TO220AB SOT186A TO247 (V) RDS(ON) RDS(ON) RDS(ON) (typ) (max) (SOT404) (SOT428) (SOT96) (SOT669) (SOT533) (SOT78) (isol TO220AB) (SOT429) @10V @5V @4.5V (nC) @ 25C (mΩ) (mΩ) (mΩ) (A) 200 165 14 2.5 PSMN165-200K 200 180 22 8.2 PHX18NQ20T 200 230 13.3 14 PHD14NQ20T PHP14NQ20T 200 230 13.3 7.6 PHX14NQ20T 200 400 12 9 PHD9NQ20T PHP9NQ20T 200 400 12 5.2 PHX9NQ20T These products have been designed and qualified for use in computing, communications, consumer and industrial applications For application examples please see: Active clamp in AC/DC conversion on page 52 UHP lamp driver on page 53 Philips Part Numbering System Philips Part Numbering System TrenchMOS - PH types part numbering SiliconMAX part numbering Philips LT = logic level Trench Philips SiliconMAX Package identifier PHP44NQ06LT B = D 2 PAK (SOT404) Package identifier series voltage PSMN003-25W D = DPAK (SOT428) K = SO8 (SOT96) B = D 2 PAK (SOT404) D = DPAK (SOT428) 03 06 30 V 55 V P = TO220AB (SOT78) P = TO220AB (SOT78) Q = Q-TrenchTM N = N-channel T = SOT223 W = TO247 (SOT429) X = SOT186A (isolated TO220AB) Low Gate Charge voltage (V) msd976 W = TO247 (SOT429) (QGD) RDS(ON) (mΩ) current - ID (A) N = N-channel MSD975 10 11

Power MOSFETs µTRENCHMOS types in bold red italic underlined represent products in development VDS MAX MAX MAX MAX ID SOT223 TSOP6 SOT23 SOT89 SOT363 SOT323 SOT416 SOT883 SOT54 SOT874 (V) RDS(ON) RDS(ON) RDS(ON) RDS(ON) (max) (SOT457) (MCD) (nanoPAK 3333-8) @10V @4.5V @2.5V @1.8V @ 25C (mΩ) (mΩ) (mΩ) (mΩ) (A) 12 34 40 56 5.7 PMN28UN 20 28 34.4 52 5.7 PMN23UN 20 34 40 56 5.7 PMN27UN 20 36 43 63 6 PMV30UN 20 37 53 5.9 PMV31XN 20 34 40 5.7 PMN34LN 20 65 82 4.1 PMN55LN 20 85 115 2.5 PMV56XN 20 85 115 2.5 SI2302DS 20 200 250 300 1.05 BSH105 20 280 380 600 PMZ250UN 20 340 550 PMZ270XN 20 340 430 660 1.02 PMF280UN PMR280UN 20 350 550 1 PMF290XN PMR290XN 30 38 45 5.4 PMN40LN 30 38 46 5.4 PMN38EN 30 46 54 77 4.9 PMN34UN 30 47 53 73 4.9 PMV40UN 30 30 50 11 BSP030 30 40 50 5.2 PMN45EN 30 42 54 5.4 PMV45EN 30 55 72 4.7 PMV60EN 30 120 140 1.9 BSH108 30 117 190 1.7 PMV117EN 30 117 190 1.7 SI2304DS 30 100 200 6 BSP100 30 400 500 600 0.85 BSH103 30 410 610 PMZ350XN 30 440 650 0.87 PMG370XN PMF370XN PMR370XN 30 460 730 PMZ390UN 30 480 580 830 0.83 PMF400UN PMR400UN 50 15000 20000 30000 0.17 BSN20 55 80 7.5 PHT8N06LT 55 150 5.5 PHT6N06LT 55 4000 5000 8000 0.3 BSH111 BSH121 55 150 5.5 PHT6N06T 60 900 1200 PMZ760SN 60 920 1400 0.57 PMF780SN PMR780SN 60 2000 4000 0.475 2N7002F 60 3000 4000 0.385 2N7002E 60 3900 5300 0.3 2N7002K 60 4500 5300 0.3 PMF3800SN 60 5000 5300 0.3 PMBF170 60 5000 5300 0.3 2N7002 60 5000 5300 2N7002T 60 5000 5300 0.3 BSH112 60 5000 5300 0.3 2N7000 100 250 3.5 PHT4NQ10LT 100 10000 0.52 BSP110 100 10000 0.19 BST82 BST72A 100 90 6 PHT6NQ10T 100 250 3.5 PHT4NQ10T 100 250 1.9 PMV213SN 100 430 2 PHT2NQ10T 100 500 0.85 BSH114 100 6000 0.15 BSS123 200 260 320 PML260SN 12 13

Power MOSFETs µTRENCHMOS types in bold red italic underlined represent products in development VDS MAX MAX MAX MAX ID SOT223 TSOP6 SOT23 SOT89 SOT363 SOT323 SOT416 SOT883 SOT54 SOT874 (V) RDS(ON) RDS(ON) RDS(ON) RDS(ON) (max) (SOT457) (MCD) (nanoPAK 3333-8) @10V @4.5V @2.5V @1.8V @ 25C (mΩ) (mΩ) (mΩ) (mΩ) (A) 200 2500 0.55 BSP122 200 3000 0.4 BSS87 200 5000 0.25 BS108 220 367 PML340SN 240 5000 7500 0.35 BSP89 250 5000 0.35 BSP126 250 5000 7500 0.3 BSN254 300 6000 10000 0.25 BSN304 300 8000 0.3 BSP130 These products have been designed and qualified for use in computing, communications, consumer and industrial applications For application examples please see: P-channel MOSFETs for ‘floating gate’ load switching on page 47 Bi-directional level shifters in I2C-bus interfaces on page 47 Battery powered motor control on page 48 Battery protection in Li-ion powered applications on page 48 MOSFET gate driver stage in DC/DC converters using TSOP6 on page 49 Philips Part Numbering System Philips Part Numbering System µTrenchMOSTM part numbering TrenchMOSTM part numbering Philips - Micro (µ)TrenchMOSTM Philips - Micro ( )TrenchMOSTM PMN32UN PMWD32UN Package identifier N = N-channel P = P-channel Package identifier N = N-channel N = TSOP6 (SOT457) N = TSOP6 (SOT457) P = P-channel W = TSSOP8 V = SOT23 Gate level W = TSSOP8 V = SOT23 Gate level G = SC88 (SOT363) U = Ultra Low - 8 VGS F = SC70 ((SOT323) X = Extremely Low - 12 VGS G = SC88 (SOT363) U = Ultra Low - 8 VGS R = SC75 (SOT416) L = Logic level - 15 VGS F = SC70 ((SOT323) X = Extremely Low - 12 VGS RDS(ON) in m‰ S = SC89 (SOT490) E = Enhanced Logic - 20 VGS R = SC75 (SOT416) L = Logic level - 15 VGS S = SC89 (SOT490) D = duals E = Enhanced Logic - 20 VGS T = SOT666 S = Standard - 30 VGS Z = MCD T = SOT666 S = Standard - 30 VGS Z = MCD MSD991 MSE124 RDS(ON) in mΩ 14 15

Power MOSFETs 20 V - 300 V MULTI-CHIP MOSFETS (N-CHANNEL/P-CHANNEL/COMPLEMENTARY) types in bold red represent new products types in bold red italic underlined represent products in development VDS MAX MAX MAX MAX IDS Configuration SO24 SO8 TSSOP8 SOT666 SOT874 (V) RDS(ON) RDS(ON) RDS(ON) RDS(ON) (A) (SOT137) (SOT96) (SOT530) SOT363 (nanoPAK 3333-8) @10V @4.5V @2.5V @1.8V (mΩ) (mΩ) (mΩ) (mΩ) 20 18.5 20.5 28.5 5 Dual common drain PMWD15UN 20 19 22 30 5 Dual common drain PMWD16UN 20 20 35 2x6 Dual N-channel PHKD6N02LT 20 20/-60 30/-100 9.1/5.3 Complementary Pair PMKD23XC 20 22 24 34 6.6 Dual common drain PMWD20XN 20 24 26 35 9.2 Dual common drain PMWD22XN 20 30 35 40 5 Dual common drain PMWD26UN 20 340 430 660 1.02 Dual N-channel PMGD280UN 20 340 430 660 1.04 Dual Isolated drain PMTD280UN 20 350 550 1.03 Dual Isolated drain PMTD290XN 20 350 550 1 Dual N-channel PMGD290XN 25 6 x 35 (MOS) 5.5 N-channel + Schottky PHN603S 6 x 5A (Schottky) array 30 21.5 23.5 35 5 Dual common drain PMWD18UN 30 23 26 35 5 Dual N-channel PMWD19UN 30 20 26 2x7 Dual N-channel PHKD13N03LT 30 33 36 40 5 Dual N-channel PMWD30UN 30 40 50 Dual N-Channel PMLD45EN 30 30 55 2 x 6.3 Dual N-channel PHN203 30 100 200 2 x 3.4 Dual N-channel PHN210T 30 100 / -250 3.5 (N) / 2.3 (P) Complementary Pair PHC21025 30 -250 -400 2 x 2.3 Dual P-channel PHP225 30 440 650 0.87 Dual N-channel PMGD370XN 30 440 650 0.89 Dual Isolated drain PMTD370XN 30 480 580 830 0.83 Dual N-channel PMGD400UN 30 480 580 830 0.85 Dual Isolated drain PMTD400UN 30 8000 13000 0.125 Dual N-channel PMGD8000LN 60 920 1400 0.49 Dual N-channel PMGD780SN 60 920 1400 0.59 Dual Isolated drain PMTD780SN 100 90 2x3 Dual N-channel PHKD3NQ10T 300 6,000 / -17,000 0.3 (N) / 0.2 (P) Complementary Pair PHC2300 These products have been designed and qualified for use in computing, communications, consumer and industrial applications types in bold red represent new products 12 V - 300 V P-CHANNEL MOSFETS types in bold red italic underlined represent products in development VDS MAX MAX MAX MAX IDS SOT223 SOT96 TSOP6 SOT23 SOT89 TO92 (V) RDS(ON) RDS(ON) RDS(ON) RDS(ON) (A) (SO8) (SOT457) (SOT54) @10V @4.5V @2.5V @1.8V (mΩ) (mΩ) (mΩ) (mΩ) 12 120 150 180 2 BSH207 16 120 150 180 2 PHK04P02T 20 43 71 7.3 PMK35XP 20 60 85 4.3 PMN50XP 20 76 120 3.8 PMV65XP 30 250 400 3 BSP250 30 900 1100 1200 0.57 BSH203 50 10000 0.13 BSS84 200 12000 0.225 BSP220 240 12000 0.2 BSS192 250 15000 0.225 BSP225 BSP254A 300 17000 0.21 BSP230 These products have been designed and qualified for use in computing, communications, consumer and industrial applications 16 17

Automotive MOSFETs GENERAL PURPOSE AUTOMOTIVE (GPA) TRENCHMOS VDS RDS(ON) @VGS ID (max) SC73 D2PAK DPAK TO220 SOT226 VDS RDS(ON) @VGS ID (max) SC73 D2PAK DPAK TO220 SOT226 (V) (mΩ) (V) @ 25°C (A) (SOT223) (SOT404) (SOT428) (SOT78) I2PAK (V) (mΩ) (V) @ 25°C (A) (SOT223) (SOT404) (SOT428) (SOT78) I2PAK 30 5 10 75 BUK7605-30A BUK7505-30A 75 9 10 75 BUK7609-75A BUK7509-75A 30 5 5 75 BUK9605-30A BUK9505-30A 75 9 5 75 BUK9609-75A BUK9509-75A 30 13 10 55 BUK6213-30A 75 23 10 53 BUK7623-75A BUK7523-75A 30 13 5 55 BUK9213-30A 75 23 5 53 BUK9623-75A BUK9523-75A 30 14 10 55 BUK9214-30A 75 26 10 46 BUK7226-75A 75 26 5 46 BUK9226-75A 40 4 10 75 BUK7604-40A BUK7504-40A BUK7E04-40A 100 15 10 75 BUK7615-100A BUK7515-100A 40 4 5 75 BUK9604-40A BUK9504-40A BUK9E04-40A 100 15 5 75 BUK9615-100A BUK9515-100A 40 13 10 55 BUK7213-40A 100 20 10 63 BUK7620-100A BUK7520-100A 100 20 5 63 BUK9620-100A BUK9520-100A 55 6 10 75 BUK7606-55A BUK7506-55A 100 28 10 49 BUK7628-100A BUK7528-100A 55 6 5 75 BUK9606-55A BUK9506-55A BUK9E06-55A 100 28 5 49 BUK9628-100A BUK9528-100A 55 8 10 75 BUK7608-55A BUK7508-55A 100 35 10 41 BUK7635-100A BUK7535-100A 55 8 5 75 BUK9608-55A BUK9508-55A 100 35 5 41 BUK9635-100A BUK9535-100A 55 9 10 75 BUK7609-55A BUK7509-55A 100 40 10 37 BUK7640-100A BUK7540-100A 55 9 5 75 BUK9609-55A BUK9509-55A 100 40 10 34 BUK7240-100A 55 10 5 75 BUK9610-55A BUK9510-55A 100 40 5 37 BUK9640-100A BUK9540-100A 55 11 10 75 BUK7611-55A BUK7511-55A 100 40 5 34 BUK9240-100A 55 11 5 75 BUK9611-55A BUK9511-55A 100 60 10 26 BUK7660-100A BUK7560-100A 55 14 10 73 BUK7614-55A BUK7514-55A 100 60 5 26 BUK9660-100A BUK9560-100A 55 14 5 73 BUK9614-55A BUK9514-55A 100 75 10 23 BUK7675-100A BUK7275-100A BUK7575-100A 55 15 10 55 BUK7215-55A 100 75 5 7 BUK9875-100A 55 15 5 55 BUK9215-55A 100 75 5 23 BUK9675-100A BUK9275-100A BUK9575-100A 55 16 10 66 BUK7616-55A BUK7516-55A 100 180 5 5 BUK98180-100A 55 16 5 66 BUK9616-55A BUK9516-55A 100 180 5 11 BUK96180-100A BUK95180-100A 55 18 5 58 BUK9618-55A BUK9518-55A 55 19 5 55 BUK9219-55A These products have been designed and qualified to the appropriate AEC standard for use in automotive applications 55 20 10 54 BUK7620-55A BUK7520-55A 55 20 10 29 55 20 5 54 BUK9620-55A BUK9520-55A 55 22 10 48 BUK7222-55A 55 22 5 48 BUK9222-55A 55 24 10 47 BUK7624-55A BUK7524-55A 55 24 5 47 BUK9624-55A BUK9524-55A 55 25 10 39 BUK7225-55A 55 25 5 39 BUK9225-55A 55 28 10 42 BUK7628-55A BUK7528-55A 55 28 5 42 BUK9628-55A BUK9528-55A 55 30 10 38 BUK7230-55A 55 30 5 38 BUK9230-55A 55 32 5 12 BUK9832-55A 55 35 10 35 BUK7635-55A BUK7535-55A 55 35 10 20 55 35 5 35 BUK9635-55A BUK9535-55A 55 37 10 32 BUK7237-55A 55 37 5 32 BUK9237-55A 55 45 5 28 BUK9245-55A 55 75 10 20 BUK7675-55A BUK7575-55A 55 75 5 20 BUK9675-55A BUK9575-55A 55 77 10 18 BUK7277-55A 55 77 5 18 BUK9277-55A 55 80 5 7 BUK9880-55A 55 150 10 11 BUK78150-55A BUK76150-55A BUK72150-55A BUK75150-55A 55 150 5 5 BUK98150-55A 55 150 5 11 BUK96150-55A BUK92150-55A BUK95150-55A 18 19

Automotive MOSFETs HIGH PERFORMANCE AUTOMOTIVE (HPA) TRENCHMOS types in bold red represent new products VDS RDS(ON) @VGS ID (max) D2PAK DPAK LFPAK TO220 SOT226 (V) (mΩ) (V) @ 25°C (SOT404) (SOT428) (SOT669) (SOT78B) I2PAK (A) 30 2.7 10 75 BUK762R7-30B BUK752R7-30B BUK7E2R7-30B 30 2.8 5 75 BUK962R8-30B BUK952R8-30B 30 4 5 75 BUK9E04-30B 30 7 10 75 BUK7607-30B BUK7207-30B BUK7507-30B 30 7 5 75 BUK9607-30B BUK9207-30B BUK9507-30B 40 3.1 10 75 BUK763R1-40B BUK753R1-40B 40 3.2 5 75 BUK963R2-40B BUK953R2-40B BUK9E3R2-40B 40 4.3 10 75 BUK764R3-40B BUK754R3-40B 40 4.4 5 75 BUK964R4-40B BUK954R4-40B BUK9E4R4-40B 40 5.2 10 75 BUK765R2-40B BUK755R2-40B 40 6 5 75 BUK9606-40B BUK9506-40B 40 8 10 75 BUK7608-40B BUK7208-40B BUK7508-40B 40 9 5 75 BUK9609-40B BUK9209-40B BUK9509-40B 55 4 10 75 BUK764R0-55B BUK754R0-55B 55 4.2 5 75 BUK964R2-55B BUK954R2-55B 55 6 10 75 BUK7606-55B BUK7506-55B 55 6 10 75 BUK9606-55B BUK9506-55B BUK9E06-55B 55 7 10 75 BUK7607-55B BUK7507-55B 55 8 5 75 BUK9608-55B BUK9508-55B BUK9E08-55B 55 11 10 75 BUK7611-55B BUK7511-55B BUK7E11-55B 55 12 10 55 BUK7212-55B 55 12 5 75 BUK9612-55B BUK9212-55B BUK9512-55B 55 19 5 40 BUK9Y19-55B 55 40 5 20 BUK9Y40-55B 75 6 10 75 BUK7606-75B BUK7506-75B 75 6 5 75 BUK9606-75B BUK9506-75B 75 13 10 60 BUK7613-75B BUK7513-75B 75 14 10 55 BUK7214-75B 75 16 5 60 BUK9616-75B BUK9516-75B 75 17 5 55 BUK9217-75B 75 30 5 30 BUK9Y30-75B 100 10 10 75 BUK7610-100B BUK7510-100B 100 10 5 75 BUK9610-100B BUK9510-100B 100 26 10 49 BUK7626-100B BUK7526-100B 100 27 10 48 BUK7227-100B 100 29 5 46 BUK9629-100B BUK9529-100B 100 30 5 47 BUK9230-100B These products have been designed and qualified to the appropriate AEC standard for use in automotive applications Philips Part Numbering System Automotive TrenchMOS part numbering Automotive qualified MOSFET BUKabrRr-vvX Technology Generation 7 = standard level TrenchMOS A = General purpose Automotive TrenchMOS 9 = logic level TrenchMOS B = High Performance Automotive TrenchMOS Voltage rating Package identifier 2 = DPAK (SOT428) RDS(ON) in mΩ where R = decimal point 5 = TO220AB (SOT78B) 6 = D2PAK (SOT404) MSD994 8 = SOT223 E = SOT226 20 21

Automotive MOSFETs TRENCHPLUS - AUTOMOTIVE MOSFETS WITH PROTECTION FEATURES VDS RDS(ON) @VGS(V) ID (max) Temp Sense Gate Source Clamps Gate Drain Clamps Current Sensing Gate Resistor D2PAK 7-pin D2PAK 5-pin TO220 SOT263B-01 (V) (mohm) (SOT427) (SOT426) (SOT78C) (5-pin TO220) 34 6 10 75 ♦ ♦ BUK7L06-34ARC 34 11 10 75 ♦ ♦ BUK7L11-34ARC 40 4.1 10 75 ♦ BUK714R1-40BT BUK794R1-40BT 40 5 10 75 ♦ ♦ BUK7105-40AIE BUK7905-40AIE 40 5 10 75 ♦ ♦ BUK7105-40ATE BUK7905-40ATE 40 5 10 75 ♦ BUK7905-40AI 40 6 10 75 ♦ ♦ ♦ BUK7C06-40AITE 40 7 5 75 ♦ ♦ ♦ BUK9107-40ATC 40 7 10 75 ♦ ♦ ♦ BUK7107-40ATC BUK7907-40ATC 40 7 5 75 ♦ ♦ ♦ BUK9907-40ATC 40 8 10 75 ♦ ♦ BUK7108-40AIE BUK7908-40AIE 48 20 5 52 ♦ ♦ ♦ BUK9120-48TC 55 7 10 75 ♦ ♦ BUK7107-55AIE BUK7907-55AIE 55 7 10 75 ♦ ♦ BUK7107-55ATE BUK7907-55ATE 55 7 5 75 ♦ ♦ BUK9107-55ATE BUK9907-55ATE 55 8 10 75 ♦ ♦ BUK7C08-55AITE 75 9 10 75 ♦ ♦ BUK7109-75ATE BUK7909-75ATE 75 9 10 75 ♦ ♦ BUK7109-75AIE BUK7909-75AIE 75 10 10 75 ♦ ♦ ♦ BUK7C10-75AITE These products have been designed and qualified to the appropriate AEC standard for use in automotive applications Philips Part Numbering System Circuit Diagram Automotive TrenchPLUS part numbering OVER-VOLTAGE TEMPERATURE CLAMP SENSOR Automotive qualified MOSFET BUKabrr-vvXddd Technology Features INPUT 7 = standard level TrenchMOS C = Gate-Drain and Gate-Source clamps RESISTOR 9 = logic level TrenchMOS E = ESD protection I = Current sensor Package identifier R = Gate resistor T = Temperature sensor CURRENT 1 = 5 pin D2PAK (SOT426) SENSOR 9 = SOT263B-01 Generation C = 7 pin D2PAK (SOT427) A = General purpose Automotive TrenchMOS L = SOT78C GATE B = High Performance Automotive TrenchMOS PROTECTION RDS(ON) in mΩ Voltage rating MSD993 DIODES (ESD) bra682 22 23

Automotive Intelligent Power TOPFET - HIGH SIDE DEVICES TOPFET - MULTIPLE CHANNEL DEVICES VDS RDS(ON) I(ISO) Type Over- Low Current Short Circuit Ilim SOT263B-01 D2PAK 5-pin VDS Single I(ISO) Type Over- Low Short Ilim Open load SOT427 (D2PAK SO20 (V) (mΩ) (max) (A) temperature Detect* Detect (A) (5-pin TO220) (SOT426) (V) Channel (max) (A) temperature Current Circuit (A) Detection 7-pin) (SOT163-1) Protection RDS(ON) Protection Detect* Detect in Off State 50 14 10 High Side 5 Pin • 10 - 21 BUK2914-50SYTS BUK2114-50SYTS (mΩ) 50 14 25 High Side 5 Pin • • 47 - 100 BUK212-50Y BUK217-50Y 50 40 (dual) 8 High Side Dual 7 Pin • • 18 - 42 • BUK218-50DY 50 14 25 High Side 5 Pin • • 47 - 100 BUK212-50YT 50 40 (dual) 8 High Side Dual 7 Pin • 18 - 42 • BUK218-50DC 50 20 18 High Side 5 Pin • • 42 - 88 BUK211-50Y BUK216-50Y 50 80 (dual) 3.2 High Side Dual 7 Pin • • 8 - 16 BUK221-50DY 50 20 18 High Side 5 Pin • • 42 - 88 BUK211-50YT 50 200 (quad) 0.7^ Low Side Quad 20 Pin • BUK1M200-50SGTD 50 30 12 High Side 5 Pin • • 38 - 72 BUK223-50Y BUK224-50Y 50 200 (quad) 0.7^ Low Side Quad 20 Pin • BUK1M200-50SDLD 50 38 9 High Side 5 Pin • • 20 - 40 BUK210-50Y Note: ^ indicates current capability set by Ilim parameter 50 38 9 High Side 5 Pin • • 20 - 40 BUK210-50YT Note: * indicated on status pin 50 38 9 High Side 5 Pin • • 34 - 64 BUK215-50Y The following notes are for the short circuit detect column only: 50 38 9 High Side 5 Pin • • 34 - 64 BUK2138-50SYAA Note: indicates short circuit on status and latches off (by voltage detection) 50 43 9 High Side 5 Pin • • 34 - 64 BUK2938-50TYAA BUK2138-50TYAA Note: indicates short circuit on status and latches off (by power detection) 50 60 6 High Side 5 Pin • • 34 - 64 BUK209-50Y 50 60 6 High Side 5 Pin • • 20 - 40 BUK214-50Y 50 100 3.6 High Side 5 Pin • • 12 - 24 BUK208-50Y BUK213-50Y Philips Part Numbering System Philips Part Numbering System 50 180 2 High Side 5 Pin • • 6 - 12 BUK219-50Y BUK220-50Y These products have been designed and qualified to the appropriate AEC standard for use in automotive applications Low Side Switch part numbering Topfet BUK127 (exception) part (types BUK117 - BUK150 only) numbering Note: * indicated on status pin The following notes are for the short circuit detect column only: 1 = Low-Side Switch 1 = Low-Side Switch Note: indicates short circuit on status and latches off (by voltage detection) Note: indicates short circuit on status and latches off (by power detection) BUK117- 50DL DL = Logic Level High input to gate resistance BUK127- 50DL DL = High input to gate resistance (typ 33 kΩ) (typ 25 kΩ) + Standard current limit function + Reduced current limit (1.3 A typ) GT = Logic Level Low input to gate resistance Voltage (V) Voltage (V) GT = Low input to gate resistance (typ 4 kΩ) (typ 2.5 kΩ) + Standard current trip function + Standard current trip (6 A typ) L = Logic Level + input resistor MSE302 MSE303 Philips Part Numbering System TOPFET Multiple Channel part numbering "BUK" - Automotive "rrr" - Rdson (mΩ) "vv" - Voltage rating TOPFET - LOW SIDE DEVICES qualified MOSFET of each channel "X" - Generation S = TOPFET 2 VDS RDS(ON) I(ISO) Type Status SOT78B SOT263B-01 SC73 D2PAK SOT226 D2PAK 5-pin D-PAK (V) (mΩ) (max) (A) Reporting (TO220AB) (5-pin (SOT223) (SOT404) I2PAK (SOT426) (SOT428) BUKabrrr-vvXxxx TO220) 50 20 16 Low Side 5 Pin • BUK125-50L BUK136-50L "a" - Technology "b" - Package "xxx" - Feature set 50 28 12 Low Side 3 Pin BUK119-50DL BUK130-50DL BUK150-50DL 1 = Low Side Switch C = SOT427 including no. of 2 = High Side Switch M = SO20 channels 50 28 12 Low Side 5 Pin • BUK124-50L BUK135-50L bra284 50 50 7 Low Side 3 Pin BUK118-50DL BUK129-50DL BUK149-50DL BUK139-50DL 50 100 3.5 Low Side 3 Pin BUK117-50DL BUK128-50DL BUK148-50DL BUK138-50DL 50 200 0.7^ Low Side 3 Pin BUK127-50DL 50 200 0.7^ Low Side 3 Pin BUK127-50GT* Fast driver for 5-pin TOPFET Self protection driver circuit These products have been designed and qualified to the appropriate AEC standard for use in automotive applications VCC Note: • indicates status feature is available D P Note: * indicates this device has current trip and low input resistance P D Note: ^ indicates current capability set by Ilim parameter 10 kΩ F P F P 2 kΩ I 100 Ω I ≥1 S S bra683 bra802 24 25

Power Bipolar Transistors DEFLECTION INDUSTRIAL VCESM IC[SAT] tf[max] SOT186A SOT199 SOT399 TO247 VCESM IC[DC] IC[SAT] tf[max] SOT82 TO220AB SOT186A TO92 D2-PAK D-PAK (V) (A) (ms) (isolated TO220AB) (TOP3D) (SOT429) (V) (A) (A) (ms) (SOT78) (isolated (SOT54) (SOT404) (SOT428) TO220AB) 1000 3 0.3 BUT11APX 700 1 0.5 0.05 BUJ100 1200 2 0.3 BUT11APX-1200 700 1 0.5 0.05 BUJ100B 1500 3 0.4 BU4506DZ 700 4 3 0.033 BUJ103A BUJ103AX BUJ103AD 1500 3 0.45 BU4506AF BU4506AX 700 4 2 0.16 PHE13005 1500 3 0.5 BU1506DX BU2506DF BU2506DX 700 8 4 0.045 BUJ105A BUJ105AB BUJ105AD 1500 4 0.4 BU1507DX BU4507DX 700 8 5 0.04 PHE13007 1500 4 0.45 BU4507AX 700 10 6 0.05 BUJ106A 1500 4 0.5 BU1507AX BU2507AX 700 12 6 0.15 PHE13009 1500 4 0.5 BU2507DX 800 0.5 0.28 BUX86P 1500 4.5 0.6 BU1508AX BU2508AF BU2508AX 1000 0.5 0.28 BUX87P 1500 4.5 0.6 BU1508DX BU2508DF BU2508DX 1000 2 1 0.4 BUX85 1500 4.5 1 BU508AF BU508AW 1000 5 2.5 0.8 BUT11A BUT11AX 1500 4.5 1 BU508DF BU508DW 1000 5 2.5 0.8 BUT11AI 1500 5 0.4 BU4508DZ BU4508DF BU4508DX 1000 5 3 0.145 BUJ303A 1500 5 0.48 BU4508AX 1000 6 4 0.8 BUT18A 1500 6 0.5 BU4515AF BU4515AX 1000 8 5 0.8 BUT12AX 1500 6 0.25 BU2522AF BU2522AX 1000 8 5 0.8 BUT12AI 1500 6 0.5 BU2520AF BU2520AX 1050 5 3 0.45 BUJ303B 1500 6 0.5 BU2520DF BU2520DX 1200 6 2 0.17 BUJ403A 1500 7 0.4 BU4522AF BU4522AX 1500 8 0.35 BU2525AF BU2525AX BU2525AW 1500 8 0.35 BU2525DX Philips Part Numbering System 1500 6 0.2 BU2527AF BU2527AX 1500 6 0.2 BU2527DX BUJ part numbering 1500 9 0.55 BU4525AX 1500 7 0.1 BU2532AW Type number Package identifier A = TO220AB (SOT78) 1500 9 0.25 BU2530AW 1500 10 0.4 BU4530AW BUJ103AX AX = SOT186A (isolated TO220AB) AB = D2PAK (SOT404) AU = IPAK (SOT553) 1700 5.5 0.9 BU2720DX = TO92 (SOT54) e.g. BUJ100 1700 7 0.8 BU2725DX Voltage spec Icsat specs series VCES VCEO 0 = 0.5 A 400 1200 550 1=1A 300 1000 500 3=3A Philips Part Numbering System 200 850 450 4=4A 100 700 400 5=5A 6=6A MSD980 Deflection transistor part numbering Type number Integration D = With integrated damper diode BU4508DF A = Without integrated damper diode Package identifier Technology F = SOT199 1 to 5 = Glass mesa X = SOT399 (TOP3D) 4 = Planar Z = SOT186A (Isolated TO220) W = SOT429 (TO247) Voltage indicator Chip size 5 = 1500 V 05 = Small 7 = 1700V to 32 = Large MSD847 26 27

Complex Discretes BISS LOADSWITCHES MATCHED PAIR TRANSISTORS types in bold red italic underlined represent products in development (IC) = mA (VCEO) = V (VCEsat) = mV R (kΩ) SOT457 SOT363 SOT666 Polarity (IC) = mA (VCEO) = V hFE min. hFE max. hFE1/hFE2 % VBE1 - VBE2 SOT143B SOT457 SOT363 SOT353 SOT666 @ IC = 0.5 A (SC-74) (SC-88) (SC-74) (SC-88) (SC-88A) (mV) Ptot max. 600 mW 300 mW 300 mW Ptot max. 250 mW 380 mW 300 mW 300 mW 300 mW NPN 100 30 110 800 30* 30* BCV61/A/B/C 500 15 < 250 2.2 PBLS1501Y PBLS1501V NPN 100 45 200 450 10* 2 BCM61B BCM847DS BCM847BS BCM847BV 500 15 < 250 4.7 PBLS1502Y PBLS1502V NPN 100 45 200 450 5 2 PMP4501Y PMP4501G PMP4501V 500 15 < 250 10 PBLS1503Y PBLS1503V NPN 100 45 200 450 2 2 PMP4201Y PMP4201G PMP4201V 500 15 < 250 22 PBLS1504Y PBLS1504V PNP 100 30 110 800 30* 30* BCV62/A/B/C 500 40 < 350 2.2 PBLS4001Y PBLS4001V PNP 100 45 200 450 10* 2 BCV62B BCM857DS BCM857BS BCM8457BV 500 40 < 350 4.7 PBLS4002Y PBLS4002V PNP 100 45 200 450 5 2 PMP5501Y PMP5501G PMP5501V 500 40 < 350 10 PBLS4003Y PBLS4003V PNP 100 45 200 450 2 2 PMP5201Y PMP5201G PMP5201V 500 40 < 350 22 PBLS4004Y PBLS4004V 500 40 < 350 47 PBLS4005Y PBLS4005V * IC1/IE2 1000 20 < 150 2.2 PBLS2001D 1000 20 < 150 4.7 PBLS2002D 1000 20 < 150 10 PBLS2003D Philips Part Numbering System 1000 20 < 150 22 PBLS2004D 1000 40 < 170 2.2 PBLS4001D 1000 40 < 170 4.7 PBLS4002D Philips Matched Pair hFE matching: 1000 40 < 170 10 PBLS4003D 2 = 2% 1000 40 < 170 22 PBLS4004D 5 = 5% 1000 40 < 170 47 PBLS4005D PMP 5 2 01D 1000 60 < 180 2.2 PBLS6001D Polarity indicator: Package indicator: 1000 60 < 180 4.7 PBLS6002D 4 = PNP D = SOT457 (SC-74) 5 = NPN Y = SOT363 (SC-88) 1000 60 < 180 10 PBLS6003D V = SOT666 1000 60 < 180 22 PBLS6004D Consecutive number bra280 1000 60 < 180 47 PBLS6005D BISS Loadswitch Tr1 Low VCEsat Power (BISS) Load supply R2 R1 Control Tr2 input (RET) MSE336 GND 28 29

Complex Discretes Low VF (MEGA) Schottky rectifiers MEGA SCHOTTKY DIODES/BISS TRANSISTOR MODULES LOW VF (MEGA) SCHOTTKY RECTIFIERS types in bold red italic underlined represent products in development Package SOT96 SOT457 SOT353 IF max. (A) VR max. (V) VF max. (mV) SOT457 SOT23 SOD123F SOD323 SOD323F SOT666 SOD523 SOD882 (SO8) (SC-74) (SC-88A) (SC-74) (SC-76) (SC-90) (SC-79) Size 4.9 x 3.9 x 1.75 2.9 x 1.5 x 1.0 2.1 x 1.25 x 0.95 2.9 x 1.5 x 1.0 2.9 x 1.3 x 1.0 2.6 x 1.6 x 1.1 1.7 x 1.25 x 1.7 x 1.25 x 1.6 x 1.2 x 0.6 1.2 x 0.8 x 0.6 1.0 x 0.6 x 0.5 Configuration NPN NPN NPN 0.95 0.7 Transistor Transistor Transistor Schottky Schottky Schottky 0.2 30 480 PMEG3002AEB PMEG3002AEL rectifier rectifier rectifier 0.2 40 600 PMEG4002EB PMEG4002EL 0.5 20 390 PMEG2005ET PMEG2005EH PMEG2005AEA PMEG2005EJ PMEG2005AEV 0.5 20 440 PMEG2005AEL 0.5 20 480 PMEG2005EB 0.5 20 500 PMEG2005EL 0.5 30 430 PMEG3005ET PMEG3005EH PMEG3005AEA PMEG3005EJ PMEG3005AEV IC max. (A) VCEO max. (V) VCEsat max. (mV) IF max. (A) VR max. (V) VF max. (mV) bra120 bra118 bra119 0.5 40 470 PMEG3005ET PMEG4005EH PMEG4005AEA PMEG4005EJ PMEG4005AEV 0.5 15 250 0.5 20 390 PMEM1505NG 1.0 20 430 PMEG2010AEH 1.0 40 210 1 20 550 PMEM4010ND 1.0 20 500 PMEG2010EH PMEG2010BEA PMEG2010EJ PMEG2010BEV 2.0 40 400 1 20 550 PMEM4020ND 1.0 20 550 PMEG2010EA PMEG2010AEJ PMEG2010EV 2.0 40 400 1 40 640 1.0 20 620 PMEG2010AEB PMEM4020AND 1.0 30 540 PMEG3010CEH PMEG3010CEJ 3.0 40 370 1 40 500 PMEM4030NS 1.0 30 560 PMEG3010EH PMEG3010BEA PMEG3010EJ PMEG3010BEV Configuration PNP PNP PNP 1.0 40 600 PMEG4010CEH PMEG4010CEJ . 1.0 40 640 PMEG4010EH PMEG4010BEA PMEG4010EJ PMEG4010BEV 1.0 60 650 PMEG6010AED 1.0 60 710 PMEG6010CEH PMEG6010CEJ 1.5 20 660 PMEG2015EH PMEG2015EA PMEG2015EJ PMEG2015EV 1.5 30 500 PMEG3015EH PMEG3015EJ PMEG3015EV bra123 bra121 bra122 2.0 10 460 PMEG1020EH PMEG1020EA PMEG1020EJ PMEG1020EV 0.5 15 250 0.5 20 390 PMEM1505PG 2.0 20 525 PMEG2020EH PMEG2020AEA PMEG2020EJ 1.0 40 410 1 20 550 PMEM4010PD 2.0 30 620 PMEG3020EJ 2.0 40 530 1 20 550 PMEM4020PD 3.0 10 530 PMEG1030EJ 2.0 40 530 1 40 640 PMEM4020APD 3.0 40 390 1 40 500 PMEM4030PS Philips Part Numbering System Internal configuration: Philips Part Numbering System E A = = single CA C = CC S = series MEGA Schottky Rectifier part numbering P = double, parallel MEGA Schottky Modules - part numbering R = triple, anti-parallel V = triple Z = 2 x CA Y = 2 x CC Cont. forward current e.g. 10 = 1.0 A Cont. collector current IC e.g. 10 = 1.0 A Polarity indicator: X = 2 x series Max. reverse voltage in V e.g. 20 V W = CA and CC Breakdown voltage VCEO in V e.g. 40 = 40 V N = NPN P = PNP PMEG2010AEV PMEM4010AND Philips MEGA Schottky Diode Package indicator: Philips MEGA Schottky Module Variant number (optional) A = SOD323 Variant number (optional) Package indicator: B = SOD523 D = SOT457 D = SOT457 H = SOD123F J = SOD323F G = SOT353 L = SOD882 S = SOT96-1 (SO-8) T = SOT23 V = SOT666 V = SOT666 W= SOT665 mse200 X = SOT89 Y = SOT363 Z = SOT223 mse201 30 31

Bipolar Small-Signal Transistors LOW VCESAT (BISS) TRANSISTORS-SINGLE BISS TRANSISTORS < 3 A Polarity (IC) = A (VCEO) = V SOT223 SOT89 SOT457 SOT23 SOT346 SOT323 SOT363 SOT416 SOT666 SOT883 SOT54 (RCEsat) = mΩ (VCEsat) = mV (VCEsat) = mV (SC-73) (SC-62) (SC-74) (SC-59) (SC-70) (SC-88) (SC-75) (SC-101) (TO-92) IC/IB = 10 IC/IB = 10 IC = 500 mA max. IC Ptot max. 2.000 mW 1.300 mW 750 mW 480 mW 250 mW 350 mW 430 mW 150 mW 300 mW 250 mW 830 mW NPN 0.5 15 PBSS2515E PBSS2515M < 500 < 250 NPN 0.5 40 PBSS2540E PBSS2540M < 500 < 250 NPN 1.0 20 PBSS4120T < 200 < 110 < 250 NPN 1.0 30 PBSS4130T < 220 < 120 < 270 NPN 1.0 40 PBSS4140V < 190 < 110 < 190 NPN 1.0 40 PMMT491A < 500 < 300 < 500 NPN 1.0 40 PBSS4140T PBSS4140U PBSS4160V PBSS4140S < 500 < 250 < 500 NPN 1.0 60 PBSS4160T PBSS4160K PBSS4160U PBSS4160V < 250 < 140 < 250 NPN 1.0 100 PBSS8110Z PBSS8110X PBSS8110D PBSS8110T PBSS8110Y PBSS8110S/AS < 200 < 120 < 200 NPN 2.0 20 PBSS4320T < 105 < 70 < 310 NPN 2.0 30 PBSS4230T < 200 < 100 < 320 NPN 2.0 40 PBSS4240V < 190 < 100 < 400 NPN 2.0 40 PBSS4240T PBSS4240Y < 200 < 100 < 320 NPN 2.0 50 PBSS4250X < 160 < 90 < 320 NPN 2.0 50 PBSS4350T < 130 < 80 < 370 NPN 3.0 20 PBSS4320X PBSS4320T < 105 < 70 < 310 NPN 3.0 30 PBSS4330X < 100 < 60 < 300 NPN 3.0 50 PBSS4350X < 130 < 80 < 370 NPN 3.0 50 PBSS4350Z PBSS4350D PBSS4350S/SA < 145 < 90 < 290 PNP 0.5 15 PBSS3515E PBSS3515M < 500 < 250 PNP 0.5 40 PBSS3540E PBSS3540M < 700 < 350 PNP 1.0 20 PBSS5120T < 250 < 125 < 250 PNP 1.0 30 PBSS5130T < 220 < 110 < 225 PNP 1.0 40 PBSS5140V < 340 < 170 < 310 PNP 1.0 40 PMMT591A < 500 < 350 < 500 PNP 1.0 40 PBSS5140T PBSS5140U PBSS5140S < 500 < 250 < 500 PNP 1.0 60 PBSS5160T PBSS5160K PBSS5160U PBSS5160V < 330 < 175 < 330 PNP 1.0 100 PBSS9110Z PBSS9110X PBSS9110D PBSS9110T PBSS9110Y PBSS9110S/AS < 320 < 180 < 320 PNP 2.0 20 PBSS5220T PBSS5220V < 113 < 80 < 225 PNP 2.0 20 PBSS5320T < 105 < 70 < 300 PNP 2.0 30 PBSS5230T < 220 < 110 < 350 PNP 2.0 40 PBSS5240V < 250 < 145 < 530 PNP 2.0 40 PBSS5240T PBSS5240Y < 220 < 110 < 350 PNP 2.0 50 PBSS5250T < 150 < 90 < 300 PNP 2.0 50 PBSS5350T < 135 < 90 < 390 PNP 2.0 50 PBSS5250X < 160 < 90 < 320 PNP 3.0 20 PBSS5320X < 105 < 70 < 300 PNP 3.0 20 PBSS5320D < 133 < 80 < 400 PNP 3.0 30 PBSS5330X < 107 < 70 < 320 PNP 3.0 50 PBSS5350X < 135 < 90 < 390 PNP 3.0 50 PBSS5350Z PBSS5350D PBSS5350S/SA < 150 < 100 < 300 32 33

Bipolar Small-Signal Transistors LOW VCESAT (BISS) TRANSISTORS-SINGLE BISS TRANSISTORS > 3 A RESISTOR-EQUIPPED TRANSISTORS (RETS)-NPN/PNP DOUBLE RETS 100 MA Polarity (IC) = A (VCEO) = V SOT223 SOT89 SOT457 (RCEsat) = mΩ (VCEsat) = mV (VCEsat) = mV Polarity (IC) = mA (VCEO) = V R1 (kΩ) R2 (kΩ) SOT457 SOT363 SOT666 (SC-73) (SC-62) (SC-74) IC/IB = 10 IC/IB = 10 (SC-74) (SC-88) Ptot max. 600 mW 300 mW 300 mW IC = 500 mA max. IC Ptot max. 2.000 mW 1.300 mW 750 mW NPN/PNP 100 50 R1 = R2 2.2 2.2 PUMD20 PEMD20 NPN 4.0 20 PBSS301ND < 70 < 50 < 280 NPN/PNP 100 50 R1 = R2 4.7 4.7 PUMD15 PEMD15 NPN 4.0 40 PBSS302ND < 75 < 60 < 300 NPN/PNP 100 50 R1 = R2 10 10 PIMD3 PUMD3 PEMD3 NPN 4.0 40 < 71 < 90 < 290 NPN/PNP 100 50 R1 = R2 22 22 PIMD2 PUMD2 PEMD2 NPN 4.0 80 PBSS4480X < 54 < 40 < 216 NPN/PNP 100 50 R1 = R2 47 47 PUMD12 PEMD12 NPN 5.0 20 PBSS4520X < 44 < 50 < 220 NPN/PNP 100 50 R1 = R2 100 100 PUMD24 PEMD24 NPN 5.0 40 PBSS4540Z PBSS4540X < 71 < 90 < 355 NPN/PNP 100 50 R1 <> R2 2.2 47 PUMD10 PEMD10 PNP 4.0 20 PBSS301PD < 70 < 50 < 280 NPN/PNP 100 50 R1 <> R2 4.7 10 PUMD18 PEMD18 PNP 4.0 40 PBSS302PD < 75 < 60 < 300 NPN/PNP 100 50 R1 <> R2 4.7 47 PUMD13 PEMD13 PNP 4.0 80 PBSS5480X < 75 < 55 < 300 NPN/PNP 100 50 R1 <> R2 10 47 PUMD9 PEMD9 PNP 5.0 20 PBSS5520X < 44 < 50 < 220 NPN/PNP 100 50 R1 <> R2 22 47 PUMD16 PEMD16 PNP 5.0 40 PBSS5540Z PBSS5540X < 80 < 80 < 375 NPN/PNP 100 50 R1 <> R2 47 22 PUMD17 PEMD17 NPN/PNP 100 50 R1 <> R2 47/2.2 47/2.2 PUMD48 PEMD48 NPN/PNP 100 50 Only R1 4.7 - PUMD6 PEMD6 NPN/PNP 100 50 Only R1 10 - PUMD4 PEMD4 LOW VCESAT (BISS) TRANSISTORS-DOUBLE BISS TRANSISTORS NPN/PNP 100 50 Only R1 22 - PUMD19 PEMD19 Polarity (IC) = A (VCEO) = V SOT457 SOT363 SOT666 (RCEsat) = mΩ (VCEsat) = mV (VCEsat) = mV NPN/PNP 100 50 Only R1 47 - PUMD14 PEMD14 (SC-74) (SC-88) IC/IB = 10 IC/IB = 10 IC = 500 mA max. IC Ptot max. 750 mW 430 mW 300 mW Philips Part Numbering System NPN 0.5 15 PBSS2515VS < 500 < 250 < 250 NPN 1.0 60 PBSS4160DS < 250 < 140 < 250 Double Resistor-Equipped Transistors part numbering PNP 0.5 15 PBSS3515VS < 500 < 250 < 250 PNP 1.0 60 PBSS5160DS < 330 < 175 < 330 Package indicator: I = SOT457/SC-74 NPN/PNP 0.5 15 PBSS2515YPN PBSS2515VPN < 500 < 250 < 250 U = SOT363/SC-88 NPN/PNP 1.0 40 PBSS4140DPN < 500 < 250 < 500 E = SOT666 NPN/PNP 1.0 60 PBSS4160DPN < 250/330 < 120/175 < 220/330 NPN/PNP 2.0 40 PBSS4240DPN < 200/260 < 100/145 < 400/530 PUMDI Polarity and Type indicator: H = NPN ICmax = 100 mA Philips Part Numbering System B = PNP ICmax = 100 mA D = NPN/PNP ICmax = 100 mA MSE231 Breakthrough In Small Signal (BISS) part numbering I c max (here: 1 A) VCEO (here: 40 V) PBSS4140US Configuration indicator ...S = Double Polarity indicator ...PN = Complementary 2 = npn [ICmax < 1 A] = 10-1 A Package indicator 3 = pnp [ICmax < 1 A] = 10-1 A Z = SOT223 T = SOT23 4 = npn [1 A < ICmax < 10 A] = A U = SOT323/SC-70 5 = pnp [1 A < ICmax < 10 A] = A K = SOT346/SC-59 Y = SOT363/SC-88 6 = npn [ICmax > 10 A] = A E = SOT416/SC-75 7 = pnp [ICmax > 10 A] = A D = SOT457/SC-74 F = SOT490/SC-89 8 = npn [BVCEO > 100 V] = 10 V V = SOT666 9 = pnp [BVCEO > 100 V] = 10 V M = SOT88x S = SOT54/TO92 MSD981 X = SOT89 34 35

SCRs,Triacs and Trigger Devices THREE-QUADRANT TRIACS types in bold red represent new products types in bold red italic underlined represent products in development FOUR-QUADRANT TRIACS types in bold red represent new products IT(RMS) VOLTAGE IGT(max) SOT223 SOT428 SOT404 SOT54 SOT186A SOT78 IT(RMS) VOLTAGE IGT(max) SOT223 SOT428 SOT404 SOT54 SOT82 SOT186A SOT78 (A) (V) (mA) DPAK D2PAK TO92 (isolated TO220AB (A) (V) (mA) DPAK D2PAK TO92 (isolated TO220AB TO220AB) TO220AB) 1 600 / 800 B/E/ER BTA201 0,6 400 5/5/5/7 MAC97A6 1 600 / 800 E BTA201W 0,6 600 5/5/5/7 MAC97A8 1 600 B/C/D/E/F BTA204W 0,6 400 / 600 5/5/5/7 BT1306-D 1 800 C/E BTA204W 0,8 400 / 600 5/5/5/7 BT1308W-D BT1308-D 4 600 B/C/D/E/F BTA204S BTA204X BTA204 1 600 / 800 3/3/3/5 Z0103MN/NN Z0103MA/NA 4 800 B/C/E BTA204S BTA204X BTA204 1 600 / 800 5/5/5/7 Z0107MN/NN Z0107MA/NA 8 600 B/D/E/F BTA208S BTA208X BTA208 1 600 / 800 10/10/10/10 Z0109MN/NN Z0109MA/NA 8 800 B/E BTA208S BTA208X BTA208 1 600 / 800 3/3/3/7 BT131 8 1000 C BTA208B BTA208X 1 600 / 800 5/5/5/7 BT131-D 12 600 B/D/E/F BTA212B BTA212X BTA212 1 600 / 800 10 BT131-E 12 600 B/C/D/E BTA312B BTA312X BTA312 1 600 5/5/5/10 BT132-D 12 800 B/E BTA312B BTA312X BTA312 1 600 BT131W 12 800 C BTA312B BTA312 1 600 / 800 BT134W 12 800 B/E BTA212B BTA212X BTA212 1 600 D/E BT134W 16 600 B/D/E/F BTA216B BTA216X BTA216 4 600 D/G BT134 16 600 B/C/E BTA316B BTA316X BTA316 4 600 / 800 E BT134 16 600 D BTA316 4 600 F BT136X 16 600 F BTA316B 4 600 D BT136X BT136 16 800 B BTA216B BTA216X BTA216 4 600 / 800 E BT136S BT136B BT136X BT136 16 800 B/C/E BTA316B BTA316X BTA316 4 600 D BT136S 25 600 / 800 B BTA225B BTA225 4 600 / 800 F BT136S 16 600 BT BTA216-600BT 6 600 / 800 BT236X 25 600 BT BTA225-600BT 6 600 / 800 G BT236X 6 600 F BT236X For application examples please see: 8 600 / 800 E BT137 8 600 D/G BT137 Triac commutation monitoring without sensing resistor on page 53 8 600 / 800 E/F BT137B Inductive DC load on AC mains on page 54 8 800 G BT137B Speed controller for power tools on page 54 8 600 / 800 E BT137X Lamp dimmer on page 55 8 600 D/F/G BT137X Universal Motor Speed Controller on page 55 8 600 / 800 D BT137S Reversible induction motor on page 56 8 600 / 800 E/F/G BT137S 12 600 / 800 E/G BT138 Improved speed control of small universal motors on page 56 12 600 F/G BT138B 12 600 / 800 E BT138B 12 600 / 800 E/F BT138X Philips Part Numbering System 16 600 / 800 E BT139B BT139 16 800 G BT139 Three-quadrant triacs Philips part numbering system 16 600 / 800 F/G BT139B 16 600 E/F/G BT139X Voltage (V) 16 800 BT139X Type number High temperature 25 400 MAC223A6 25 600 MAC223A8X BTA204S-600ET 25 600 / 800 BTA140 Package identifier Gate sensitivity I GT max - = TO220AB (SOT78) D = 5, 5, 5 mA B = D 2PAK (SOT404) E = 10, 10, 10 mA S = DPAK (SOT428) F = 25, 25, 25 mA Philips Part Numbering System W = SOT223 C = 35, 35, 35 mA X = SOT186A (isolated TO220AB) B = 50, 50, 50 mA Four-quadrant triacs msd849 Philips part numbering system Type number Voltage (V) BT137X-600D Package identifier Gate sensitivity I GTmax - = TO220AB (SOT78) D = 5, 5, 5, 10 mA B = D 2 PAK (SOT404) E = 10, 10, 10, 25 mA S = DPAK (SOT428) F = 25, 25, 25, 70 mA W = SOT223 - = 35, 35, 35, 70 mA X = SOT186A (isolated TO220AB) G = 50,50,50,100 mA BT131, BT132D use TO92 package BT134 uses SOT82 package msd850 36 37

SCRs,Triacs and Trigger Devices Diodes and Rectifiers SILICON CONTROLLED RECTIFIERS GENERAL PURPOSE RECTIFIERS IT(RMS) VOLTAGE IGT(max) SOT223 SOT428 SOT404 SOT54 SOT533 SOT82 SOT186A SOT78 VRRM IO(AV) / IF(AV) VF @IF SINGLE/ SOD59 (A) (V) (mA) DPAK D2PAK TO92 IPAK (isolated TO220AB <(V) (A) (V) (A) DUAL (TO220AC) TO220AB) 600 7 1.6 20 SINGLE BY249-600 0.8 400 12uA EC103D1 0.8 200 / 400 / 600 200uA BT169 0.8 200 / 400 / 600 200uA BT149 0.8 500 / 600 200uA (min BT168W BT168 20uA) 0.8 200 200uA MCR08BT1 DAMPER AND MODULATOR DIODES 1 600 200uA BT148W 4 400 / 500 / 600 200uA BT148 VRRM IF(av) VF(max) Vfr(typ) tfr(typ) trr(max) Single / Dual SOD113 SOD59 SOT186A SOT399 (V) (A) (V) (V) (ns) (ns) (2-pin (TO220AC) 2-pin (TOP3D) 4 600 200uA BT150S SOT186A) 4 500 200uA BT150 1500 20 1.3 8 170 350 Single BY459X-1500 BY459-1500 8 500 / 600 / 800 200uA BT258X BT258 1500 20 1.35 11 200 220 Single BY459X-1500S 8 800 200uA BT258S 1500 / 600 60 / 70 1.45 / 1.25 27 / 3.2 200 / 35 300 / 60 Dual BYM357X BYM357DX 8 600 15mA BT300S 1500 / 600 60 / 70 1.6 / 1.3 29 / 5.0 130 / 35 170 / 60 Dual BYM358X 12 500 / 650 / 800 15mA BT151S BT151X BT151 1500 / 800 60 / 70 1.45 / 1.55 27 / 18.0 200 / 125 300 / 145 Dual BYM359X BYM359DX 12 650 15mA BTH151S-xxxR 12 500 / 650 / 800 15mA BT151U-xxxC BT151X-xxxC BT151-xxxC 20 400 / 600 / 800 32mA BT152B BT152X BT152 25 800 35mA BT145 FAST SOFT-RECOVERY DIODES Philips Part Numbering System VRRM IO(AV)/IF(AV) trr TO220AC SOD113 TO220AB (V) (A) (ns) (SOD59) (SOT78) SCRs Philips part numbering system 200 8 135 BY229X-200 400 8 60 BYV29-400 Type number Voltage (V) 500 9 60 BYV29-500 600 8 135 BY229-600 BY229X-600 BT151X-650R 800 8 135 BY229X-800 Package identifier 1000 8 135 BY329-1000 - = TO220AB (SOT78) 1200 8 135 BY329-1200 BY329X-1200 B = D 2 PAK (SOT404) 1500 7 230 BY329X-1500 S = DPAK (SOT428) U = IPAK (SOT533/TO251) 1500 7 160 BY329X-1500S W = SOT223 1500 10 600 BY359-1500 BY359X-1500 X = SOT186A (isolated TO220AB) BT149, BT168 & BT169 use TO92 package 1500 10 350 BY359X-1500S BT148 uses SOT82 package MSD848 Diodes and Rectifiers DIACS ULTRAFAST & HYPERFAST DIODES FOR PFC types in bold red italic underlined represent products in development IFRM V(BO) I(BO)max SOD27 VRRM IF(av) tfr(typ) Vfr(typ) TO220AC D2PAK TO220AB SOD113 SOD186A (A) (V) (uA) (V) (A) @25C(ns) @150C(ns) ( SOD59) (SOT404) (SOT78) (2-pin (isolated SOT186A) TO220) 2 28 -36 50 BR100/03 Continuous Current Mode 600 5 19 1,4 BYC5-600 BY5B-600 600 8 19 1,4 BYC8-600 BYC8B-600 BYC8X-600 600 10 19 1,4 BYC10-600 BYC10B-600 BYC10X-600 600 2X5 19 1,4 BYC10-600CT Discontinuous or Critical Current Mode 600 9 55 1 BYV29-600 BYV29B-600 BYV29X-600 600 15 55 1,05 BYT79-600 BYT79X-600 600 2 X 10 55 1,12 BYV34-600 BYV34X-600 38 39

Diodes and Rectifiers ULTRAFAST RECOVERY DIODES types in bold red italic underlined represent products in development VRRM IO(AV) / IF(AV) VF @IF trr SINGLE/ DPAK D2PAK SOD113 SOD59 SOT186A TO220AB TO247 SOT223 (V) (A) (V) (A) (ns) DUAL (SOT428) (SOT404) (2-pin SOT186A) (TO220AC) (isolated (SOT78) (SOT429) TO220AB) 100 20 0.95 8 25 DUAL (2 x 10A) BYV32E-100 100 8 0.895 8 25 SINGLE BYW29E-100 150 8 0.895 8 25 SINGLE BYW29E-150 150 20 0.85 8 25 DUAL (2 x 10A) BYV32E-150 150 30 0.85 15 28 DUAL (2 x 15A) BYV42E-150 150 1.5 0.7 0.5 25 DUAL (2 x 1.5A) BYV40E-150 200 8 0.895 8 25 SINGLE BYW29ED-200 BYW29E-200 BYW29EX-200 200 10 0.895 5 25 DUAL (2 x 5A) BYQ28ED-200 BYQ28X-200 BYQ28E-200 200 14 0.9 14 30 SINGLE BYV79E-200 200 16 0.95 8 25 DUAL (2 x 8A) BYQ30E-200 200 20 0.85 8 25 DUAL (2 x 10A) BYV32EB-200 BYV32E-200 200 30 0.82 15 28 DUAL (2 x 15A) BYV72EW-200 200 30 0.85 15 28 DUAL (2 x 15A) BYV42EB-200 BYV42E-200 300 10 1.05 5 60 DUAL (2 x 5A) BYT28-300 400 9 1.03 8 60 SINGLE BYV29-400 400 20 1.05 10 60 DUAL (2 x 10A) BYV34-400 400 30 1.12 15 60 DUAL (2 x 15A) BYV74W-400 500 9 1.03 8 60 SINGLE BYV29B-500 BYV29X-500 BYV29-500 500 10 1.05 5 60 DUAL (2 x 5A) BYT28-500 500 14 1.05 15 60 SINGLE BYT79-500 500 20 1.05 10 60 DUAL (2 x 10A) BYV34-500 500 30 1.12 15 60 DUAL (2 x 15A) BYV44-500 600 8 1.5 8 75 SINGLE BYR29X-600 BYR29-600 600 9 1 5 55 SINGLE BYV29B-600 BYV29X-600 BYV29-600 600 14 1.05 15 55 SINGLE BYT79X-600 BYT79-600 600 20 1.05 10 55 DUAL (2 x 10A) BYV34X-600 BYV34-600 800 8 1.5 8 75 SINGLE BYR29-800 For application examples please see: Ultrafast diodes for high frequency applications on page 57 High frequency diode bridge on page 57 Ultrafast and Hyperfast diodes for Power Factor Correction on page 58 40 41

Linear Voltage Regulators Lighting ICs DDR BUS TERMINATION REGULATORS LIGHTING ICS types in bold red represent new products type package description remarks intended applications operating temperature type description package type of light operating supply voltage intended applications in °C temperature in °C NE57810 SOT756 (SPAK-5) Advanced DDR memory Optional external voltage Desktop computers, note- 0 to 70 UBA2014 600 V driver IC for HF SOT109 (SO16) HFTL -25 to 150 600 Dimmable CFL termination power with reference in for flexible books, workstations, servers, fluorescent lamps SOT38 (DIP16) external reference in applications routers, game machines, set top boxes, digital VCR, UBA2021 630 V driver IC for CFL SOT27-1 (DIP14) CFL / HFTL -40 to 150 630 CFL and fixed output TL embedded systems, computer and TL lamps SOT108-1 (SO14) graphics display UBA2024P Half- bridge power IC SOT 97-1 (DIP8) CFL -40 to 150 550 CFL NE57811 SOT756 (SPAK-5) Advanced DDR memory Reduced power mode Workstations, servers, 0 to 70 for CFL lamps termination power with routers, embedded systems shutdown UBA2032 Full bridge driver IC SOT137-1 (SO24) HID -40 to 150 550 Projectors SOT341-1 (SSOP28) NE57814 SOT786BB2 (HSO8) DDR memory termination Very low power standby Desktop computers, note- 0 to 70 regulator with standby mode mode books, workstations, servers, UBA2033 HF full bridge driver IC SOT341 (SSOP28) HID -40 to 150 550 Projectors and enhanced efficiency routers, game machines, set UBA2070 600 V CCFL ballast SOT38-1 (DIP16) CCFL -40 to 150 600 LCD Backlighting top boxes, digital VCR, driver IC SOT109-1 (SO16) embedded systems, computer graphics display UBA2072 Full bridge control IC for SOT136-1 (SO28) CCFL / EEFL -25 to 150 30 and 550 LCD Backlighting, includ- CCFL backlighting SOT341 (SSOP28) ing LCD TV and LCD Monitor applications LOW DROPOUT REGULATORS type package description intended applications output voltage TDA3661 SOT96-1 (SO8) Very low dropout voltage/quiescent Radio, Audio and 1 current adjustable voltage regulator CD/DVD Systems TDA3663 SOT223-1 (SO4) Very low dropout voltage/quiescent Radio, Audio and 5 SOT96-1 (SO8) current 3.3 V voltage regulator CD/DVD Systems TDA3664 SOT223-1 (SO4) Very low dropout voltage/quiescent Radio, Audio and 4.75~5.25 SOT96-1 (SO8) current 5 V voltage regulator CD/DVD Systems 42 43

Power Conversion AC-DC CONVERTERS-SMPS ICS FOR LOW POWER SYSTEMS PIP2XX (PHILIPS INTELLIGENT POWER,AN INTEGRATED SOLUTION) types in bold red italic underlined represent products in development type package description Indicated output power Rds (on) intended applications Vin Vout fin (typical) IO(avg) System 10x10 Package Package global mains (V) (V) (kHz) (A) Efficiency MLF Name Name @15A TEA1520 SOT97-1 (DIP8) Switched Mode Power 2-5 W 48 TV (%) SOT108-1 (SO14) Supply Control IC monitor standby power 12 1.5 500 20 82 PIP201-12M-3 HVQFN68 10X10 MLF supplies and chargers 12 1.5 500 25 86 PIP202-12M-2 HVQFN68 10X10 MLF TEA1521 SOT97-1 (DIP8) Switched Mode Power 3-7 W 24 TV 5 - 12 1.3 500 35 90 PIP212-12M HVQFN56 8X8 MLF SOT108-1 (SO14) Supply Control IC monitor and DVD players standby power supplies and chargers TEA1522 SOT97-1 (DIP8) Switched Mode Power 7-9 W 12 White goods and personal SOT108-1 (SO14) Supply Control IC care and DVD players standy power supplies PIP3XX (PHILIPS INTELLIGENT POWER) TEA1523 SOT97-1 (DIP8) Switched Mode Power 9-12 W 6,5 Audio PART NUMBER TYPE PACKAGE RDS(ON) VDS SOT108-1 (SO14) Supply Control IC video and PC peripherals (mΩ) (V) TEA1620 SOT97-1 (DIP8) Switched Mode Power 2-5 W 48 TV PIP3101-A Low Side 5 Pin SOT263-01 28 50 Supply Control IC monitor standby power PIP3102-R Low Side 5 Pin 28 50 SOT426 (D2-PAK) 2nd generation supplies and chargers PIP3103-T Low Side 3 Pin SOT223 200 50 TEA1622 SOT97-1 (DIP8) Switched Mode Power Supply 7-9 W 12 White goods and personal PIP3104-P Low Side 3 Pin SOT78 (TO220AB) 100 50 Control IC 2nd generation care PIP3105-P Low Side 3 Pin SOT78 (TO220AB) 50 50 TEA1623 SOT97-1 (DIP8) Switched Mode Power Supply 9-12 W 6,5 Audio PIP3106-D Low Side 3 Pin SOT428 (D-PAK) 100 50 SOT38-1 (DIP16) Control IC 2nd generation 12-30W video and PC peripherals PIP3107-D Low Side 3 Pin SOT428 (D-PAK) 50 50 PIP3115-B Low Side 3 Pin SOT404 (D2-PAK) 100 50 For application examples please see: PIP3117-B Low Side 3 Pin SOT404 (D2-PAK) 50 50 AC/DC converters: SMPS ICs for low power consumer systems on page 58 PIP3118-B Low Side 3 Pin SOT404 (D2-PAK) 28 50 PIP3119-P Low Side 3 Pin SOT78 (TO220AB) 28 50 PIP3121-A Low Side 5 Pin SOT263-01 20 50 PIP3122-R Low Side 5 Pin SOT426 (5 pin (D2-PAK) 20 50 PIP3201-A High Side 5 Pin SOT263-01 38 50 AC-DC CONVERTERS-SMPS ICS FOR HIGH POWER SYSTEMS PIP3202-DC High Side Dual 7 Pin SOT427 (D2-PAK) 40 50 PIP3203-A High Side 5 Pin SOT263-01 100 50 type package description intended applications Max supply voltage high voltage start up 0% duty cycle / cycle source skipping PIP3205-A High Side 5 Pin SOT263-01 14 50 PIP3206-R High Side 5 Pin SOT426 (D2-PAK) 14 50 TEA1506 SOT97-1 (DIP8) TV Flyback Switched CRT TV 20 no yes PIP3207-DC High Side Dual 7 Pin, soft latch 40 50 SOT427 (D2-PAK) Mode Power Supply IC monitor PIP3208-A High Side 5 Pin SOT263-01 180 50 TEA1507 SOT97-1 (DIP8) TV Flyback Switched CRT TV 20 yes no PIP3209-R High Side 5 Pin SOT426 (D2-PAK) 180 50 Mode Power Supply IC monitor PIP3210-R High Side 5 Pin SOT426 (D2-PAK) 38 50 TEA1532 SOT96-1 (SO8) Consumer Switched Consumer equipment eg 20 yes yes PIP3211-R High Side 5 Pin SOT426 (D2-PAK) 38 50 Mode Power Supply IC printer, fax, set top box PIP3212-A High Side 5 Pin SOT263-01 20 50 LCD TV , PIP3213-R High Side 5 Pin SOT426 (D2-PAK) 20 50 monitor PIP3218-R High Side 5 Pin SOT426 (D2-PAK) 14 50 TEA1533 SOT97-1 (DIP8) Consumer Switched Consumer equipment eg 20 yes yes SO108-1 (SO14) Mode Power Supply IC printer, fax, set top box PIP3221-DC High Side Dual 7 Pin, soft latch SOT427 (D2-PAK) 80 50 LCD TV , PIP3224-DC High Side Dual 7 Pin SOT427 (D2-PAK) 80 50 monitor TEA1552 SO108-1 (SO14) Laptop & Notebook (Notebook) adapter 20 yes yes adapter Switched Mode Power Supply IC TEA1610 SOT38-1 (DIP16) Resonant Switched Mode LCD TV 14 yes yes SOT109 (SO16) Power Supply IC PIP4XX (ORIS OR-ING INTELLIGENT SWITCH) Vin / Vout Vin / Vout IO IOM Vin / Vout toff Device Package For application examples please see: (V) (V) (A) (A) (mV) (ns) Name AC/DC converters: SMPS ICs for high power consumer systems on page 59 min max DC max t<10us @25A 1.3 12 75 400 60 400 PIP401 SOT427 44 45

Applying Power Semiconductors µTrenchMOS µTrenchMOS P-channel MOSFETs for ‘floating gate’ Bi-directional level shifters in load switching I2C-bus interfaces In today’s increasingly complex system solutions, Philips the applications for the various key MOSFET, Description Description MultiMarket Semiconductors portfolio, and specifically Integrated Power or Bipolar technologies, covering a Modern power management systems are often required The bi-directional level shifter connects two sections of our discrete semiconductor offering, plays a vital role. number of power management and control functions. to switch one or more power supply lines according to an I2C-bus or similar system. Each section has a different To give just a brief overview of some of the many The twenty-six notes highlight the benefits and focus the specific requirements of the system at any given time. supply voltage and different logic levels. In the bus system benefits our broad power MOSFET, Integrated Power products from our portfolio as well as illustrating just The power switches employed in such systems must be shown, pull-up resistors and devices in the left section are and Bipolar products bring to individual functions and how simple some of these solutions are. capable of ‘floating’ operation, in which neither of the connected to a 3.3 V supply, while the right section applications, we have gathered together a number of brief main current carrying terminals is connected to 0 V. operates from a 5 V supply. application notes. For ease of use we have sectioned The I/O ports of the circuits have logic input levels The drive circuit arrangement shown in the diagram related to the supply voltages and an open drain output allows Q1 to operate as a switch in applications in which configuration. µTrenchMOSTM Triacs and SCRs none of the device terminals are connected to 0 V. For correct operation of the circuit, it is essential that • P-channel MOSFETs for ‘floating gate’ load switching • Triac commutation monitoring without sensing resistor MOSFETs Q1 and Q2 are capable of fully turning on at • Bi-directional level shifters in I2C-bus interfaces • Speed controller for power tools Benefits gate-source voltages of less than 2 V. • Battery powered motor control • Inductive DC load on AC mains • Low threshold voltage enables operation in battery • Battery protection in Li-ion powered applications • Lamp dimmer powered applications such as mobile phones and PDAs Benefits • MOSFET gate driver stage in DC/DC converters using • Universal motor speed controller • Very low RDS(on) minimizes on-state losses, allowing the • Surface mount package TSOP6 • Improved speed control of small universal motors device to conduct relatively large currents without • Low on-state resistance • Reversible induction motor excessive power dissipation • Low threshold voltage <30 V MOSFETs • P-channel operation removes the need for charge pump • Fast switching • LFPAK for DC/DC converters Rectifiers & Zeners gate drive circuits • Active load circuit in DC/DC conversion • Ultrafast diodes for high frequency applications • Small industry standard, surface mount footprint, SOT23 Suitable Products • PDA backlight supply • High frequency diode bridge • PMR280UN • Buck conversion for high-end graphics cards (VGA) • Ultrafast and Hyperfast diodes for Power Factor Suitable Products • PMN27UN • Power switching in CCFL resonant inverters Correction • PMV65XP • PMV30UN • PMF280UN 40–100 V MOSFETs Integrated Power • PMGD280UN • Low voltage DC motor control • AC/DC converters: SMPS ICs for low • PMR400UN power consumer systems • PMN34UN >100 V MOSFETs • AC/DC converters: SMPS ICs for high • PMV40UN • Active clamp in AC/DC conversion power consumer systems • PMF400UN • UHP lamp driver • One-chip motor drive IC • PMGD400UN Circuit Diagram S D Circuit Diagram R1 Q1 G PMV65XP VDD1 VDD2 G R2 3.3 V Rp Rp Rp Rp 5V battery load S D D Data1 Data2 G Q2 Q1 G PMV65XN Clock1 S D Clock2 S Q2 3.3 V 5V CIRCUIT CIRCUIT bra514 bra513 46 47

µTrenchMOS µTrenchMOS µTrenchMOS <30 V MOSFETs Battery powered motor control Battery protection in Li-ion MOSFET gate driver stage in DC/DC LFPAK for DC/DC converters powered applications converters using TSOP6 Description Description Description Description Philips’ µTrenchMOS family in the very small TSOP6 can The use of Li-ion batteries in modern hand-held In high-power DC/DC converters, synchronous rectification With the increasing importance of power density in be used to control small motors in range a of common equipment is now very common, with applications is often used on the converter secondary side in order to DC/DC converters, Philips’ solutions in LFPAK offer applications such as shavers and electric toothbrushes, as typically using between one and four cells depending on improve efficiency and minimise converter power loss.To greater power density than both SO8 and DPAK well as a variety of industrial applications.The speed of individual power requirements. Protection of the cell(s) is facilitate fast and efficient switching of the synchronous rec- products. Our devices offer leading performance in these small motors must remain constant whatever the always necessary in order to prevent cell damage during tifier MOSFETs, MOSFET gate driver stages are often used. applications such as Point of Load (POL) and VRMs, motor load, and hence the current through the MOSFET instances of over- or under-charging or short-circuit Each driver stage consists of one N-channel and one whether in the low-side or high-side position, where varies during usage. R2 is used to sense the current conditions, and the protection scheme employed must be P-channel MOSFET in a totem-pole configuration (Q3/Q4 minimum switching losses are vital. through the motor and MOSFET, and by monitoring the able to isolate the battery from the rest of the circuit. for the upper power MOSFET Q1 and Q5/Q6 for the lower voltage developed across R2 the controller is able to The circuit diagram below carries out the protection and power MOSFET Q2), the gate driver circuits are in turn There is also a requirement for high component density, maintain the motor at a constant speed, irrespective of isolation function with the safety IC constantly driven by a PWM controller situated on either the primary thus a minimum number of small footprint MOSFETs load. In the circuit below the MOSFET gate current can monitoring the (dis)charge current and the voltage across or secondary side of the converter. must be used. In higher current applications, an LFPAK be limited and any spikes generated by the motor are the cell.When the cell is being (dis)charged correctly, device can meet the thermal requirements that one SO8 suppressed. conduction will take place via both MOSFETs (turned Benefits cannot, and in these cases either two SO8 devices or a ON and with very low RDS(on)). When a fault condition • The VGS waveforms of the synchronous rectifier MOSFETs DPAK would be needed. Benefits occurs, the MOSFET will be turned off disconnecting the show less ringing and under / overshoot • Better VGS waveform stability compared with standard driv- • Appropriate for driving motors in the 3-5 W power Li-ion cell from the rest of the circuit. Benefits er stages (at low and high current demands) range • Suitable for 5 V or 12 V gate drive • Synchronous rectifier IG waveforms are also more stable • Low VGS(th) MOSFETs are capable of functioning at low Benefits • Greater power density than SO8 or DPAK with a MOSFET driver stage battery voltages (even single cell powering), and are in • Very low on-state resistance, hence very low power loss • No effect on the behaviour of the power switching circuit • Same footprint area as SO8 extremely small packages in the switches (compared with traditionally used driver components) • No MOSFET snubber circuit required as the devices are • Good switching performance Suitable Products capable of handling high peak currents and voltages • Very small PCB footprint and low package height Suitable Products • PH3830L • Efficient, very low RDS(on) specifications means no change • Low threshold voltage enables MOSFET drive directly • PMN34UN • PMN40LN • PH5330E in motor speed due to voltage drops across the from the battery voltage without the use charge pumps • PMN34LN • PMN45EN • PH7030L MOSFET • PMN27UN • PMN55LN • PH4530L Suitable Products • PMN28UN • PMN23UN • PH3120L Suitable Products • PMWD26UN • PMWD30UN • PMN34UN • PMWD16UN • PMWD19UN SiliconMAX and NQ series Power MOSFETs are suitable for use • PMN27UN • PMWD15UN • PMWD18UN in the Q1 and Q2 MOSFET positions.The PMN series are • PMN40LN suitable for use in Q3 and Q5 MOSFET positions • PMN55LN • PMN34LN • PMN28UN • PMN45EN • PMN23UN Max. Typical RDS(on) mΩ VGS ID VDS (V) Max RDS(on) (mΩ) QGD (nC) QGtotal (nC) Typical RDS(on) mΩ R @ 1.8 V Max Configuration VDS (V) VGS=4.5 V VGS=2.5 V Typ (mΩ) VGS (V) VDS (V) VGS=10 V VGS=4.5 V VGS=2.5 V VGS=1.8 V max. VGS 10 V VGS 4.5 V PMWD26UN 20 26.0 29.0 34 10 Isolated drain PMN34UN 30 - 38 45 54 8 4.9 PH3830L 30 3.8 4.9 11.0 33.0 PMWD16UN 20 16.0 18.0 22 10 Isolated drain PMN27UN 20 - 27 32 39 8 5.7 PH5330E 30 5.7 8.5 6.0 21.0 PMWD15UN 20 15.3 17.0 20 12 Common drain PMN40LN 30 32 40 - - 15 5.4 PH7030L 30 7.9 10.0 3.2 12.0 PMWD30UN 30 30.0 33.0 36 10 Isolated drain PMN55LN 20 55 70 - - 15 4.1 PH4530L 30 6.3 9.0 4.1 21.0 PMWD19UN 30 19.0 21.0 25 10 Isolated drain PMWD18UN 30 18.0 20.0 24 12 Common drain PMN34LN 20 28 34 - - 15 5.7 PH3120L 30 2.4 3.4 12.8 48.5 PMN28UN 12 - 28 32 39 8 5.7 PMN45EN 30 32 42 - - 20 5.2 Circuit Diagram PMN23UN 20 - 23 28 36.4 8 6.4 Circuit Diagram Circuit Diagram Circuit Diagram Circuit Diagram Q1 Rsense Vin battery+ + VCC VCC Vdr ive H S M C1 Rgate1 Q3 Ga t e D rive I C S1 sense I SL620 5 or I SL6 207 CONTROL IC + gate 1 V driveLS PWM Vo L1_1 gate 2 CONTROLLER C0 D1 CB oo t battery NE57600 − Q1 Q4 BA T 5 4 NE57605 PH 70 30L sense NE57607 L0 − NE57608 + − Ci n Ga t e battery CONTROLLER VG VG VCC bra530 R1 Q5 Dr iv e Vo ut IC L1 + L2_2 PW M − Co ut Q1 R2 battery− Rgate2 Q6 Q2 0V bra203 0V bra531 Q2 0V 0V 48 49

<30 V MOSFETs <30 V MOSFETs <30 V MOSFETs <30 V MOSFETs Active load circuit in DC/DC PDA Backlight Supply Buck conversion for high-end Power switching in CCFL resonant conversion graphics cards (VGA) inverters Description Description Description Description This circuit provides a simple and cost effective The following circuit is ideal for providing a white LED Modern high-end graphics cards typically incorporate Dual N-channel MOSFETs can be used as power switches alternative to ‘off-the-shelf’ electronic load circuits and is backlighting supply in, for example, cellular phones and their own fast, dedicated graphics processor (GPU) and a inside resonant inverters for the high voltage power ideal for carrying out efficiency testing of low- to PDAs that are powered from a single battery cell. Q1, Q2 large amount of memory. The power consumption of supply of Cold Cathode Fluorescent Lamps (CCFL) in medium-power DC/DC converters. A single 1A load and associated components form a simple oscillator such graphics cards is now similar to that of complete LCD backlighting applications. In the application circuit section is formed around SW1a, R2a, R3a, C3a, C4a, IC2a running at approximately 25 kHz. Due to the very low motherboards from two to three years ago, with the below a full bridge converts the low DC voltage (typically and Q1a and multiple 1A load sections may be connected threshold characteristics of Q1 and Q2, this oscillator will GPU alone requiring up to 10A at an approximate voltage 3 V to 28 V) to an AC voltage.The IC controls the four in parallel to achieve a complete circuit capable of sinking function with a supply voltage of 1.2 V or less. Q3, L1 and of 1.7 V. The GPU supply is usually derived from a higher N-channel MOSFETs to produce a low AC voltage that is in excess of 10A. Switchable in steps of 1A via SW1, the the LED(s) are configured as a non-isolated flyback voltage (3.3 V in this case) via a synchronous buck transformed to a higher AC voltage, which in turn powers overall current may also be fine tuned by adjusting VR1. converter.The ‘flyback’ action of L1 provides sufficient DC/DC converter. Correct choice of power MOSFETs in the CCFL tubes. voltage to drive the LED(s), whose forward voltage is the DC/DC converter is essential if the converter is to Benefits typically 3 to 4 V per device.The circuit may also be run with acceptable temperature and efficiency.The Philips The drain-source voltage of the MOSFET must be • Simple design and extremely cost effective configured to run at increased supply voltages e.g. for a PHK12NQ03LT and PHK28NQ03LT MOSFETs are ideal selected to withstand the maximum voltage that can • Little drift over time compared to ordinary resistive 3 V supply and 3 LEDs, change R2 to 560 Ω and L1 to for this application, and are available in the industry occur on the DC input.The MOSFETs recommended in loads 560 µH. standard SO8 package, prevalent in this application. the table below are suitable for lamp powers ranging • Low power consumption - can be battery powered from 1 W to about 5 W. For half or full bridge thereby providing a true ‘floating’ load Benefits Benefits configurations either single or dual MOSFETs can be • Will power a single, dual or triple LED in series with the • Efficiency equal to leading industry requirements used. Note that the total power capability of two single Suitable Products circuit values shown • Very low RDS(on) specification and fast switching enables TSOP6 packages is equal to one SO8 package or twice • PHP78NQ03LT (Q1a) • Operation with supply voltage ≤ 1.2 V – which can be lower working temperatures the power capability of a TSSOP8 package. • LM358N (IC2) extended to higher voltages • Lower profile to simplify compact design • Uses readily available components Benefits Suitable Products • Lower RDS(on) than P-channel MOSFETs Suitable Products • PHK12NQ03LT • Latest Trench technology helps improve system • Philips Si2302DS (Q1, 2, 3) • PHK28NQ03LT efficiency - lower on-state resistance - increased inverter efficiency • High integration, reduced component count Suitable Products Power MOSFETs • PHKD6NO2LT • PHN203 • PHKD13NO13LT • PHKD3NQ10T RDS(on) mΩ @VGS V • PMWD16UN PHK12NQ03LT 14 4.5 10.5 10 • PMWD19UN PHK28NQ03LT 7.5 4.5 • PMWD30UN 7.1 10 • PMGD370XN • PMN45EN • PMN40LN • PMN23UN Driver IC • UBA2070 Circuit Diagram Circuit Diagram Circuit Diagram Circuit Diagram VCC VIN = 3.3 V Vdc to additional load sections Q1a PHP87NQ03LT R1 Q1, Q2, Q3: R4 C2 L1 Q1 Controller CCFL 12 V (on heatsink) IN 100 Ω Philips Si2302DS 100 Ω 4.7 µF IC1 330 µH I O LED 78L05 C3a 0V 10 µF C R4 SW1a (16 V) 1.5 V PWM VOUT = 1.7 V at 4.7 R3 (nominal) kΩ to additional to DC-DC CONTROLLER 10A "VCORE" R2a load sections converter 1 kΩ 10 kΩ R2 C1 C1 C2 VR1 C4a R3a 1 µF 1 µF 2 kΩ IC2a 1Ω (35 V) (35 V) (10 T) 1/2LM358N 47 nF 7.5 kΩ 10 nF (10 W) Q1 Q2 Q3 Q2 0V OUT bra532 bra541 0V bra534 50 51

40–100 V MOSFETs >100 V MOSFETs >100 V MOSFETs Triacs and SCRs Low voltage DC motor control Active clamp in AC/DC conversion UHP lamp driver Triac commutation monitoring without sensing resistor Description Description Description Description In controlling the speed and direction of low voltage brushed The active clamp topology allows for a more efficient Ultra high pressure (UHP) lamps in projectors are often Intelligent, microcontroller-based triac management allows and brushless DC motors, power MOSFETs provide robust method of transformer core reset in isolated flyback and driven by a full bridge resonant inverter, with N-channel continuous conduction or phase control of any and easy-to-use solutions and have largely replaced their forward converters. For example in a forward converter, MOSFETs as power switches involved in converting the unspecified load without the need for a current sense bipolar counterparts.This is because they offer several core reset is traditionally achieved by the use of an ‘RCD’ DC input voltage to an AC voltage. resistor.The closed-loop system adjusts automatically to features which make them uniquely suitable for operation in clamp, resulting in a loss of core magnetising energy as it apply sufficient current to guarantee triggering, while DC motor control circuits. dissipates in the resistive part of the clamp. An active In the circuit below, a full bridge converts the DC rail to minimizing current drawn from the driver supply. clamp circuit allows the core magnetising energy to be a low frequency square AC voltage that supplies the lamp. MOSFETs are extremely easy to turn on or off, simply recovered and returned to the supply, improving overall The DC voltage is typically regulated by a step-down Combining Philips’ Hi-Com triacs and low-cost LPC (Low requiring that the gate capacitance is charged to the converter efficiency.This is achieved by the circuit converter, which is normally connected to an AC mains Pin Count) microcontrollers, together with the necessary necessary voltage level. Once turned on or off, the MOSFET comprised of the transformer, CCLAMP and MOSFET Q1 PFC pre-conditioner with nearly constant voltage (e.g. 380 V) software code, can achieve any triac control function gate draws no further current from the drive circuit. Modern – a lower current N-channel MOSFET with a voltage and provides a voltage within the 50 V to 175 V range. simply, cheaply and reliably. Once the system has been MOSFET technology enables devices with RDS(on) figures of rating of 150V or 200 V. A second benefit offered by the The MOSFETs drain-source voltage must be selected to designed, its closed-loop functionality ensures success for less than 10 mΩ, ensuring that even at high current levels, active clamp topology is that the voltage appearing across withstand the maximum voltage that can occur on the any load in a wide range of applications including solid- on-state losses are extremely low. In bridge configurations, the primary side switch MOSFET (Q2) is reduced, DC supply.The products listed below are ideal for lamp state relays, domestic appliances and personal care the MOSFETs built-in body diode may be used to conduct compared to other core reset methods.This also has less powers ranging from 40 W to about 200 W. products, as well as leisure and industrial equipment. freewheeling currents, eliminating the need for external variation with the input voltage allowing a lower voltage parallel diodes. rated device to be used in the Q2 position. A driver IC, such as the Philips UBA2033, provides the Benefits drive for all the N-channel MOSFETs in the full bridge • Predicts imminent triac commutation Benefits Suitable Products for Q1 and Q2 configuration. • No current sense resistor required • Very low RDS(on) ensures low on-state loss • PML260SN (200V, 294 mΩ) • Microcontroller applies gate current only when needed • Fast switching • PSMN063-150D (150V, 63 mΩ, DPAK) Benefits • Self adjusts for any load • Low loss operation reduces heatsinking and increases • PHK5NQ15T (150V, 75 mΩ, SO8) • Low on-state losses increase inverter efficiency • Enables simple, reliable, one-for-all design-and-forget battery life • PHD22NQ20T (200V, 120 mΩ, DPAK) • Easy gate driving due to low input capacitance triac control systems • Robust, handles large current spikes without damage • PHK4NQ20T (200V, 130 mΩ, SO8) • Flexible choice of packages,VDS and RDS(on) • PHD14NQ20T (200V, 230 mΩ, DPAK) Suitable Products Suitable Products Suitable Products Triac • PHP222NQ04LT Power MOSFETs • BTA2xx • PHB222NQ04LT • PHP33NQ20T • PHP193NQ06T • PHB33NQ20T Microcontroller • PHB193NQ06T • PHD22NQ20T • 87LPC764 • PHP73N06T • PHP45NQ15T • PHB73N06T • PHB45NQ15T • PHP110NQ08T • PHB110NQ08T Driver IC • UBA2033 Circuit Diagram Circuit Diagram Circuit Diagram Circuit Diagram +VIN dc voltage rail HR HL Q1 transformer M D1 Q1 Q3 (active clamp) primary R > 100 Ω R > 100 Ω +5V Trigger current −LVS 1 28 GHR >50mA BTA2** EXTOR FSR CCLAMP low voltage +LVS 2 27 SHR C1 87LPC764 Hi-Com 3 26 M IGNITOR 56R triac 4 25 R > 100 Ω LR LL microcontroller Gate 5 24 HV GLR Q2 Ci 6 23 PGND R > 100 Ω 22k voltage 7 22 Q1 Q2 Q4 (primaire EXTERNAL 8 UBA2033TS 21 L monitor OSCILLATOR VDD GLL BZX79C5V6 + side switch) CONTROL SU 9 20 CIRCUIT 10 19 DO 11 18 bra533 BD SHL 1000uF + - 0V RC 12 17 FSL Mains 2k2 bra515 13 16 16V C3 SGND 14 15 GHL C2 supply Comparators bra517 100k GND + 120 V VIN = 75 V N 1N4148 - Q1 Q3 Q5 48 V AC RECTIFIER PFC 0V 22k 100k Any load R-C mains Q1 VDS M dropper (20 V/div) STEP-DOWN FULL IGNITION CONVERTER BRIDGE 35 V Window Q2 Q4 Q6 UHP Low current LAMP comparator logic supply 0V bra516 LAMP DRIVER CONTROL CIRCUITRY MSE150 bra518 52 53

Triacs and SCRs Triacs and SCRs Triacs and SCRs Triacs and SCRs Speed controller for power tools Inductive DC load on AC mains Lamp dimmer Universal Motor Speed Controller Description Description Description Description Most handheld power tools such as drills, routers, jigsaws Occasions arise where a DC load must be powered from Lamp dimmers must be very compact and generate little Universal motors are commonly used in industrial and and sanders incorporate a speed controller in their AC mains via a bridge rectifier. Examples include DC waste heat as they are usually housed in the extremely commercial applications, as well as many appliances found trigger switch.The popular solution is a half-wave phase permanent magnet motors as used in small hand-held restricted space of a wall switch box. A triac phase in the home, where high-speed, low-cost and ease of controller incorporating a Silicon Controlled Rectifier tools & kitchen appliances, DC solenoid valves as used in control circuit can meet these requirements. Lamp speed control are a requirement.Typical applications (thyristor) with a high ITRM (repetitive surge) capability. home and industry, etc.The motors will most likely be brightness is varied by varying the amount of time in each include mixers, washers, power tools, laboratory This simple, compact and efficient circuit offers variable speed-controlled by means of a triac phase control mains half cycle that the lamp is connected to the supply. equipment, sewing machines and vacuum cleaners. Motor speed control with the best speed stability under a widely circuit.The solenoids also are often triac-controlled, with This conduction time is governed by how fast the 47 nF speed is easily controlled by varying the average voltage varying motor load. It also withstands the high, repetitive the triac used as a solid-state switch to apply full power capacitor charges up, which in turn is controlled by the applied to it.This can be achieved very simply by use of inrush currents experienced during multiple start/stop only. In both cases, the load current is extremely non- setting of the 1 MΩ potentiometer. Because the load is the phase control circuit. A Phase Controller varies the sequences and motor stall. Another demand placed on linear and can more closely resemble a square wave than resistive, it offers no smoothing or filtering of the current amount of time in each mains half-cycle that voltage is components by this application is high ambient a sine wave.This produces very high commutating current waveform, so harmonic distortion remains high.Therefore applied to the load, according to the setting of the 1 MΩ temperatures, often combined with limited space and (dICOM/dt) for the triac. Most triacs will fail to commutate it is necessary to include the 2.5 mH inductor to potentiometer.The inductance of the motor provides little provision for heatsinking. Our portfolio includes under such conditions and will experience uncontrolled attenuate the harmonic currents, in addition to the 47 nF some smoothing and filtering of the load current, while compact and rugged devices such as the BTH151S-650R conduction of one or more half cycles after removal of RFI filter capacitor. the 220 nF capacitor provides additional filtering of RF SCR, specifically designed to satisfy all these conditions. the gate drive.The problem gets rapidly worse with interference. increasing temperature. Such commutation failure can be Benefits Benefits avoided by using Hi-Com (three quadrant) triacs • Simple circuit Benefits • Compact surface mount package (DPAK) exclusively. If the least sensitive options are chosen • Very compact • Simple circuit • Load current IT(RMS) = 12 A (B series with IGT = 50 mA), guaranteed reliable • Efficient - low heat generation • Three quadrant triac requires no Snubber • High repetitive surge guarantee operation is possible without the need for commutation • Cost effective for cost-critical applications • Cost effective • ITRM = 60 A @ 10 ms, 100 kilocycles aids like snubbers or series dICOM/dt limiting inductors. • Applicable to any lamp power - e.g. 40 to 1000 W - • Efficient - low heat generation • High surge capability (ITSM = 110 A @ 10 ms) simply select the appropriate triac current rating* • Applicable to any motor power - e.g. 100 W mixer or Benefits 2.2 kW heavy duty vacuum cleaner - simply select the • Hi-Com (three quadrant) triacs require no * Severe current de-rating is routinely applied due to the appropriate triac current rating* Suitable Products commutation aids such as snubbers and dICOM/dt- extremely limited heatsinking and the very high potential • SCR limiting inductors inrush current of cold filaments or failing lamps * Half current derating has been applied to allow for - 12 A BTH151S-650R (DPAK) – leaded option • Simplest possible circuits inrush and overload currents and to allow for non-ideal (TO220) available on request • Best reliability Suitable Products heatsinking in hot environments. • Diac • Most reliable operation at high temperatures • Four quadrant triacs Max load - BR100/03 (SOD27) - 4A BT136 series 200 W Suitable Products Suitable Products - 8A BT137 series 400 W • Three quadrant triacs Max load • Three quadrant triacs - 12A BT138 series 600 W - 4A BTA204-B series 550 W - 1A BTA201 range - 12A BTA212 range - 16A BT139 series 800 W - 8A BTA208-B series 1100 W - 4A BTA204 range - 16A BTA216 range - 25A BTA140 series 1250 W - 12A BTA212-B series 1600 W - 8A BTA208 range - 25A BTA225 range • Diac - 16A BTA216-B series 2200 W - BR100/03 - 25A BTA225-B series 3400 W • Diodes • Diac - Any low frequency diode from Philips’ General - BR100/03 Purpose Rectifier range. Circuit Diagram Circuit Diagram Circuit Diagram RFI filter components Circuit Diagram 1 MΩ preset sets min. motor speed 47 kΩ switch closes L inductor 1 MΩ potentiometer is MSE152 for full speed 2.5 mH 10 kΩ 10 kΩ user-adjustable for 230 V adjusting motor speed load current L 230 V (50 Hz) supply between the min. set 100 nF 50 Hz Hi-com 230 V 1 MΩ point and maximum. (250 V) AC (three quadrant) N 220 nF 220 nF 1 MΩ supply class X2 470 kΩ 33 Ω High dIcom/dt triac lamps 1 MΩ (50 Hz) (250 V AC) preset 2+ AC mains (250 V AC) supply class X2 Diac Three quadrant triac supply 40 W - 400 W Diac Four quadrant 47 Ω class X2 (IGT = 50mA) 47 nF 47 Ω triac 1N4148 (63 V) BR100/03 + 100 nF 4+ inductive 47 nF M N DC load (63 V) blocking voltage − (63 V) M MSE151 bra535 MSE155 MSE172 54 55

Triacs and SCRs Triacs and SCRs Rectifiers and Zeners Rectifiers and Zeners Improved speed control of small Reversible induction motor Ultrafast diodes for high frequency High frequency diode bridge universal motors applications Description Description Description Description A universal motor’s speed drops off rapidly when it is Industrial applications such as roller shutter doors and In fast switching applications where low conduction losses Taking a 400 V / 1600 W isolation stage used in a solar loaded. This effect is emphasized further if the motor is conveyors, and domestic appliances including tumble are important, Philips BYV29 (9 A / 600 V) ultrafast diodes energy inverter, the high frequency diode bridge in this undersized or subject to intermittent overload, typical in dryers and top-loading washing machines often employ gave the lowest total power loss in a component test application consists of four ultrafast recovery diodes mixers, sewing machines and power tools. A half wave reversible induction motors. Many controllers for these which measured several parameters. In the first circuit the (BYV29B-500/600). phase control circuit - one that uses a Silicon Controlled motors use two triacs to connect two motor terminals diodes were used as a boost diode in a 600 W PFC A full-bridge inverter consisting of four 600 V MOSFETs Rectifier (SCR) instead of a triac - enables improved alternately to the supply. To avoid uncontrolled discharge circuit with a ZVS (zero voltage switching) circuit to limit converts the DC input voltage to AC, with a frequency as compensation by the motor for changes in load and of the motor capacitor through both triacs it is essential power loss in the PFC switch.The second test involved a high as 150 kHz to reduce the size of the 1:1 therefore helps maintain a more constant speed for a that their operation is mutually exclusive. full diode bridge in a 1500 W isolation stage. Additionally transformer. given power setting. In some applications a bypass switch This requires high quality Hi-Com (High Commutation) forward voltage was measured at two different is included to connect the motor directly to the mains triacs with excellent immunity to false triggering. In temperatures and the reverse recovery time at two With a full diode bridge, the secondary AC voltage is supply for full speed. However, the difference in motor addition, due to the voltage boosting that occurs across different switch conditions. rectified to 400 V DC.The high frequency needs ultrafast speed between 180º (half wave) conduction and 360º (full the undriven motor winding (voltage step-up by recovery diodes and, as conduction losses play a major wave) conduction is often not great. A degree of RFI ‘autotransformer effect’), high voltage triacs must be Compared against four other ultrafast diodes, the tests role, the forward voltage must be as low as possible. As filtering is provided by the motor inductance and the 100 specified. Using the recommended triacs in the circuit showed that the BYV29 has the lowest body the maximum reverse voltage is equal to the maximum nF capacitor. An SCR capable of withstanding high shown below ensures reliable operation without the need temperature, the lowest forward voltage and an DC voltage, for safe operation this application requires repetitive surge current will be required for arduous for snubbers or gate capacitors. intermediate reverse recovery time. 500 V or 600 V diodes. Philips ultrafast recovery diodes applications such as professional, heavy duty power tools. For higher power converters the 20 A BYV34 and 30 A with optimized forward voltages are available from 500 V Benefits BYV44 diodes are recommended. to 800 V. Benefits • Three Quadrant triacs require no snubbers • Simple, compact circuit • Increased reliability from simpler circuit Benefits Benefits • Cost effective • Microcontroller / triac combination does not require • Highly efficient solution • Ultrafast switching up to 150 kHz in given application • Efficient - low heat generation driver IC • Extra reliability from low operating temperature • Optimized to reduce conduction losses • Better speed maintenance as load varies • Best reliability due to high voltage triacs • Up to 150 kHz switching • High temperature operation at maximum rated reverse • Surface mount and leaded packages voltage Suitable Products Suitable Products • Soft recovery characteristics reduce EMI • SCRs • Triacs (8 A, 1000 V) Suitable Products • Surface mount and leaded packages - 8A BT300 series - BTA208B-1000C • BYV29-500 - 12A BT151series - BTA208X-1000C • BYV29-600 Suitable Products - 20A BT152 series • Microcontroller: 87LPC764 • BYV29 • Transistor: BC557 • BYV29X • Diac • Diode: 1N4148 • BYV29B - BR100/03 • BYT79 • BYR29 • BYR29X Circuit Diagram ZVS circuit Circuit Diagram Circuit Diagram Circuit Diagram 1) 600W/100kHz PFC 400 V DC L 100 Ω 1000 V BC557 Hi-com triacs (IGT = 35 mA) 47 kΩ 5V switch closes 100 Ω for full speed BZX79C5V6 motor running LPC capacitor BYV29B-500/600 230 V 100 nF MICRO BC557 (50 Hz) (250 V AC) mains supply CONTROLLER supply class X2 Diac 400 V DC 470 kΩ 33 Ω SCR 1N4148 0V 47 nF R-C reversible 1N4148 (63 V) mains induction motor M dropper MSE156 bra540 N bra656 2) 1500W/130kHz Isolation stage 56 57

Rectifiers and Zeners Integrated Power Integrated Power Ultrafast and Hyperfast diodes AC/DC converters: SMPS ICs for AC/DC converters: SMPS ICs for high for Power Factor Correction low power consumer systems power consumer systems Description Description Description The TEA162x devices belong to Philips' highly efficient Used for power ranges up to 250 W, Philips’ TEA1532 Active Power Factor Correction (PFC) is necessary to STARplug range of controller ICs for low-power SMPSs offers all of the advantages of the rest of the GreenChip reduce disturbance on the AC distribution net. are ideal in a plethora of consumer applications including family and is ideal for applications such as printers and Regulations such as IEC1000-3-2/EN61000-3-2 impose chargers, adapters,TV and monitor standby supplies, PC other adapters, LCD monitors, set-top boxes and DVD restrictions on Power Factor (PF) and Total Harmonic peripherals and set-top boxes. Like all STARplug products, recordable drives. Distortion (THD) of high power applications like off-line they operate directly from rectified universal mains power supplies for PCs,Telecommunications and lower supplies from 80 V to 276 V. Essentially turnkey solutions, Among the many on-chip features are over-temperature power applications such as lighting ballasts. A boost they dramatically cut design-in time for new power and over-voltage protection for safety, demagnetization converter placed after the bridge rectifier transforms a supplies and enable low-power, low-cost and extremely detection, reduced power frequency during standby (less crest or inductive load into a resistive load with a power compact solutions for power plugs and small supplies. than 3 W) and universal mains supply operation (from 70 factor equal to 1 and a very low harmonic distortion to 276 V AC).The TEA1532 also offers 63 kHz maximum (THD). Important for the efficiency of the PFC is the Benefits switching frequency and cycle skipping for low standby choice of the PFC diode. Usually a high switching frequency • Adjustable frequency for flexible design power levels. One additional feature is the built-in high is chosen to enable the use of small sized inductor. • RC oscillator for load insensitive regulation loop constant voltage start-up current source, providing current when For high power applications the boost converter usually • Valley switching for minimum switch-on loss needed and is switched off during normal operation.With operates in the ‘continuous conduction mode’. For this • Safe restart mode for system fault conditions this function, the current level is independent mode, diode reverse recovery losses are the most • Simple application with both primary and secondary to the input voltage. significant, so Philips recommends ultrafast or hyperfast (opto) feedback diodes with the shortest reverse recovery time trr. • Available in 8-pin and 16-pin DIP package Benefits For lower power applications the boost converter usually • Universal mains supply operation (70 V to 276 V AC) operates in the ‘critical conduction’ or ‘discontinuous Suitable Products • High level of integration, resulting in a very low external conduction mode’. In this case, on-state losses become • TEA1620 component count more significant, so Philips recommends ultrafast diodes • TEA1622 • Optimized efficiency at all power levels with a low forward voltage drop VF. • TEA1623 • Enables highly efficient and reliable supplies to be designed easily Benefits • World’s fastest reverse recovery is best for continuous Suitable Products conduction mode in high power AC-DC SMPS and • TEA1532 allows a high PFC frequency (up to 200kHz) • Low forward recovery voltage minimises MOSFET Circuit Diagram losses at turn-on • Minimised VF to keep conduction losses as low as possible for critical conduction and discontinuous 1 modes in lighting ballasts 8 VCC SUPPLY DRAIN VALLEY TEA1620P • Excellent soft recovery characteristics minimise GND 2 LOGIC 7 n.c. powerconsuming oscillations 100 mV PWM stop • High maximum junction temperature makes diodes RC 3 OSCILLATOR THERMAL SHUTDOWN 6 SOURCE low frequency PROTECTION suitable for high temperature operation f 1.8 U POWER-UP RESET LOGIC blank overcurrent • Useful range of surface mount and through-hole packages REG 4 2.5 V 10x 0.5 V 5 AUX short winding Circuit Diagram 0.75 V Suitable Products col006 Diode VRRM (V) IF(AV) (A) trr (ns) @ 25C VF @ 150C Package Key VCC 1 SUPPLY 8 DRAIN 1 SUPPLY START-UP 8 VCC DRAIN BYV29-600 600 9 50 typ 60 max < 1.03V @ 8A TO220AC D, CC TEA1622P VALLEY MANAGEMENT CURRENT SOURCE Iprot(dem) DCM BYV29B-600 600 9 50 typ 60 max < 1.03V @ 8A D2PAK D, CC 2 LOGIC 7 internal UVLO start supply AND VALLEY clamp GND n.c. CCM Vm BYV29X-600 600 9 50 typ 60 max < 1.03V @ 8A SOD113 D, CC 100 mV 2 S1 DETECTION GND PWM 5 BYT79-600 600 14 50 typ 60 max < 1.03V @ 14A TO220AC D, CC stop OSCILLATOR LOGIC DEM 3 6 RC OSCILLATOR THERMAL SOURCE BYT79X-600 600 14 50 typ 60 max < 1.03V @ 14A SOD113 D, CC SHUTDOWN 80 low frequency PROTECTION mV LOGIC SLOPE BYV34-600 600 2 X 10 50 typ 60 max < 1.03V @ 10A TO220AB D, CC f POWER-UP RESET blank COMPENSATION −50 1.8 U DRIVER mV BYV34X-600 600 2 X 10 50 typ 60 max < 1.03V @ 10A SOT186A D, CC 2.5 V overcurrent 0.5 V Osc_Rdy 7 REG 4 10x 5 AUX Duty_Max LOGIC DRIVER BYC5-600 600 5 19 typ < 1.75V @ 5A TO220AC C short winding Islopecomp 4 Iss BYC5B-600 600 5 19 typ < 1.75V @ 5A D2PAK C 0.75 V CTRL −1 POWER-ON LEB 0.5 V RESET S Q soft BYC8-600 600 8 19 typ < 1.85V @ 8A TO220AC C col009 5.6 V blank start S2 UVLO R Q BYC8B-600 600 8 19 typ < 1.85V @ 8A D2PAK C OCP BYC8X-600 600 8 19 typ < 1.85V @ 8A SOD113 C VCC 1 SUPPLY 8 DRAIN BYC10-600 600 10 19 typ < 1.80V @ 10A TO220AC C TEA1623P VALLEY control detect MAXIMUM ON-TIME BYC10B-600 600 10 19 typ < 1.80V @ 10A D2PAK C 2 LOGIC 7 PROTECTION GND n.c. 0.63 V 6 BYC10X-600 600 10 19 typ < 1.80V @ 10A SOD113 C 100 mV SENSE BROWN-OUT PWM DCM and CCM Key: D - discontinuous mode; CC - critical conduction; C - continuous mode stop (1) S3 PROTECTION 3 6 RC OSCILLATOR THERMAL SOURCE SHUTDOWN 2.5 V low frequency PROTECTION LOGIC Icharge f POWER-UP 3 RESET blank PROTECT TEA1532T 1.8 U 300 Ω S Q overcurrent 5.6 V TEA1532AT OVER- TEA1532P 2.5 V 0.5 V Idischarge protect REG 4 10x 5 AUX TEMPERATURE VCC < 4.5 V R Q TEA1532AP 3V detect PROTECTION short winding 0.75 V coa014 col011 58 59

Index Index Type Page Type Page Type Page Type Page Type Page Type Page Type Page Type Page Type Page Type Page Type Page Type Page number number number number number number number number number number number number number number number number number number number number number number number number 2N7000 13 BT168 38 BU4515AX 26 BUK7509-75A 19 BUK9240-100A 19 BUT11A 27 PBLS1502V 28 PBSS5330X 32 PHB96NQ03LT 4 PHP83N03LT 5 PMEG3010CEJ 31 PMZ250UN 13 2N7002 13 BT168W 38 BU4522AF 26 BUK7510-100B 20 BUK9245-55A 18 BUT11AI 27 PBLS1502Y 28 PBSS5350D 32 PHB98N03LT 4 PHP96NQ03LT 5 PMEG3010EH 31 PMZ270XN 13 2N7002E 13 BT169 38 BU4522AX 26 BUK7511-55A 18 BUK9275-100A 19 BUT11APX 26 PBLS1503V 28 PBSS5350S/SA 33 PHC21025 17 PHP9NQ20T 11 PMEG3010EJ 31 PMZ350XN 13 2N7002F 13 BT236X 37 BU4525AX 26 BUK7511-55B 20 BUK9277-55A 18 BUT11APX-1200 26 PBLS1503Y 28 PBSS5350T 32 PHC2300 17 PHT2NQ10T 12 PMEG3015EH 31 PMZ390UN 13 2N7002K 13 BT236X 37 BU4530AW 26 BUK7513-75B 20 BUK9504-40A 18 BUT11AX 27 PBLS1504V 28 PBSS5350X 32 PHD101NQ03LT 5 PHT4NQ10LT 12 PMEG3015EJ 31 PMZ760SN 13 2N7002T 13 BT236X 37 BU508AF 26 BUK7514-55A 18 BUK9505-30A 18 BUT12AI 27 PBLS1504Y 28 PBSS5350Z 32 PHD108NQ03LT 5 PHT4NQ10T 12 PMEG3015EV 31 PNP 30 BCM61B 29 BT258 38 BU508AW 26 BUK75150-55A 18 BUK9506-40B 20 BUT12AX 27 PBLS2001D 28 PBSS5480X 34 PHD110NQ03LT 5 PHT6N06LT 12 PMEG3020EJ 31 PNP 30 BCM8457BV 29 BT258S 38 BU508DF 26 BUK7515-100A 19 BUK9506-55A 18 BUT18A 27 PBLS2002D 28 PBSS5520X 34 PHD14NQ20T 11 PHT6N06T 12 PMEG4002EB 31 PNP 30 BCM847BS 29 BT258X 38 BU508DW 26 BUK7516-55A 18 BUK9506-55B 20 BUX85 27 PBLS2003D 28 PBSS5540X 34 PHD16N03LT 5 PHT6NQ10T 12 PMEG4002EL 31 PSMN002-25B 4 BCM847BV 29 BT300S 38 BUJ100 27 BUK7520-100A 19 BUK9506-75B 20 BUX86P 27 PBLS2004D 28 PBSS5540Z 34 PHD16N03T 5 PHT8N06LT 12 PMEG4005AEA 31 PSMN002-25P 5 BCM847DS 29 BTA140 37 BUJ100B 27 BUK7520-55A 18 BUK9507-30B 20 BUX87P 27 PBLS4001D 28 PBSS8110D 32 PHD18NQ10T 9 PHU101NQ03LT 5 PMEG4005AEV 31 PSMN003-25W 5 BCM857BS 29 BTA201W 36 BUJ103A 27 BUK7523-75A 19 BUK9508-55A 18 BY229-600 39 PBLS4001V 28 PBSS8110S/AS 33 PHD20N06T 7 PHU108NQ03LT 5 PMEG4005EH 31 PSMN003-30B 4 BCM857DS 29 BTA204 36 BUJ103AD 27 BUK7524-55A 18 BUK9508-55B 20 BY229X-200 39 PBLS4001Y 28 PBSS8110T 32 PHD21N06LT 7 PHU11NQ10T 9 PMEG4005EJ 31 PSMN003-30P 5 BCV61/A/B/C 29 BTA204 36 BUJ103AX 27 BUK7526-100B 20 BUK9509-40B 20 BY229X-600 39 PBLS4002D 28 PBSS8110X 32 PHD22NQ20T 9 PHU66NQ03LT 5 PMEG4010BEA 31 PSMN004-36B 4 BCV62/A/B/C 29 BTA204S 36 BUJ105A 27 BUK7528-100A 19 BUK9509-55A 18 BY229X-800 39 PBLS4002V 28 PBSS8110Y 33 PHD23NQ10T 9 PHU78NQ03LT 5 PMEG4010BEV 31 PSMN004-55W 5 BCV62B 29 BTA204S 36 BUJ105AB 27 BUK7528-55A 18 BUK9509-75A 19 BY249-600 39 PBLS4002Y 28 PBSS8110Z 32 PHD3055E 7 PHW80NQ10T 9 PMEG4010CEH 31 PSMN004-60B 6 BR100/03 38 BTA204W 36 BUJ105AD 27 BUK752R7-30B 20 BUK9510-100B 20 BY329-1000 39 PBLS4003D 28 PBSS9110D 32 PHD34NQ10T 9 PHX14NQ20T 11 PMEG4010CEJ 31 PSMN004-60P 7 BS108 15 BTA204W 36 BUJ106A 27 BUK7535-100A 19 BUK9510-55A 18 BY329-1200 39 PBLS4003V 28 PBSS9110S/AS 33 PHD36N03LT 5 PHX18NQ11T 9 PMEG4010EH 31 PSMN005-25D 5 BSH103 13 BTA204X 36 BUJ303A 27 BUK7535-55A 18 BUK9511-55A 18 BY329X-1200 39 PBLS4003Y 28 PBSS9110T 32 PHD37N06LT 7 PHX18NQ20T 11 PMEG4010EJ 31 PSMN005-30K 5 BSH105 13 BTA204X 36 BUJ303B 27 BUK753R1-40B 20 BUK9512-55B 20 BY329X-1500 39 PBLS4004D 28 PBSS9110X 32 PHD38N02LT 5 PHX23NQ10T 9 PMEG6010AED 31 PSMN005-55B 6 BSH108 13 BTA208 36 BUJ403A 27 BUK7540-100A 19 BUK9514-55A 18 BY329X-1500S 39 PBLS4004V 28 PBSS9110Y 33 PHD45N03LTA 5 PHX23NQ11T 9 PMEG6010CEH 31 PSMN005-55P 7 BSH111 13 BTA208 36 BUK117-50DL 24 BUK754R0-55B 20 BUK95150-55A 18 BY359-1500 39 PBLS4004Y 28 PBSS9110Z 32 PHD55N03LTA 5 PHX27NQ11T 9 PMEG6010CEJ 31 PSMN005-75B 8 BSH112 13 BTA208B 36 BUK118-50DL 24 BUK754R3-40B 20 BUK9515-100A 19 BY359X-1500 39 PBLS4005D 28 PEMD10 35 PHD63NQ03LT 5 PHX34NQ11T 9 PMEM1505NG 30 PSMN005-75P 9 BSH114 13 BTA208S 36 BUK119-50DL 24 BUK755R2-40B 20 BUK9516-55A 18 BY359X-1500S 39 PBLS4005V 28 PEMD12 35 PHD66NQ03LT 5 PHX45NQ11T 9 PMEM1505PG 30 PSMN006-20K 5 BSH121 13 BTA208S 36 BUK124-50L 24 BUK7560-100A 19 BUK9516-75B 20 BY459-1500 39 PBLS4005Y 28 PEMD13 35 PHD71NQ03LT 5 PHX8NQ11T 9 PMEM4010ND 30 PSMN008-75B 8 BSH203 16 BTA208X 36 BUK125-50L 24 BUK7575-100A 19 BUK95180-100A 19 BY459X-1500 39 PBLS6001D 28 PEMD14 35 PHD78NQ03LT 5 PHX9NQ20T 11 PMEM4010PD 30 PSMN008-75P 9 BSH207 16 BTA208X 36 BUK127-50DL 24 BUK7575-55A 18 BUK9518-55A 18 BY459X-1500S 39 PBLS6002D 28 PEMD15 35 PHD82NQ03LT 5 PIMD2 35 PMEM4020AND 30 PSMN009-100B 8 BSN20 13 BTA208X 36 BUK127-50GT* 24 BUK7604-40A 18 BUK9520-100A 19 BY5B-600 39 PBLS6003D 28 PEMD16 35 PHD96NQ03LT 5 PIMD3 35 PMEM4020APD 30 PSMN009-100P 9 BSN254 15 BTA212 36 BUK128-50DL 24 BUK7605-30A 18 BUK9520-55A 18 BYC10-600 39 PBLS6004D 28 PEMD17 35 PHD98N03LT 5 PIP201-12M-3 45 PMEM4020ND 30 PSMN009-100W 9 BSN304 15 BTA212 36 BUK129-50DL 24 BUK7606-55A 18 BUK9523-75A 19 BYC10-600CT 39 PBLS6005D 28 PEMD18 35 PHD9NQ20T 11 PIP202-12M-2 45 PMEM4020PD 30 PSMN010-55D 7 BSP030 12 BTA212B 36 BUK130-50DL 24 BUK7606-55B 20 BUK9524-55A 18 BYC10B-600 39 PBSS2515E 33 PEMD19 35 PHE13005 27 PIP212-12M 45 PMEM4030NS 30 PSMN015-100B 8 BSP100 12 BTA212B 36 BUK135-50L 24 BUK7606-75B 20 BUK9528-100A 19 BYC10X-600 39 PBSS2515M 33 PEMD2 35 PHE13007 27 PIP3101-A 45 PMEM4030PS 30 PSMN015-100P 9 BSP110 12 BTA212X 36 BUK136-50L 24 BUK7607-30B 20 BUK9528-55A 18 BYC5-600 39 PBSS2515VPN 34 PEMD20 35 PHE13009 27 PIP3102-R 45 PMF280UN 13 PSMN015-110P 9 BSP122 14 BTA212X 36 BUK138-50DL 24 BUK7607-55B 20 BUK9529-100B 20 BYC8-600 39 PBSS2515VS 34 PEMD24 35 PHK04P02T 16 PIP3103-T 45 PMF290XN 13 PSMN020-150W 9 BSP126 14 BTA216 36 BUK139-50DL 24 BUK7608-40B 20 BUK952R8-30B 20 BYC8B-600 39 PBSS2515YPN 34 PEMD3 35 PHK12NQ03LT 5 PIP3104-P 45 PMF370XN 13 PSMN025-100D 9 BSP130 14 BTA216 36 BUK148-50DL 24 BUK7608-55A 18 BUK9535-100A 19 BYC8X-600 39 PBSS2540E 33 PEMD4 35 PHK12NQ10T 9 PIP3105-P 45 PMF3800SN 13 PSMN030-150B 8 BSP220 16 BTA216-600BT 36 BUK149-50DL 24 BUK7609-55A 18 BUK9535-55A 18 BYM357DX 39 PBSS2540M 33 PEMD48 35 PHK13N03LT 5 PIP3106-D 45 PMF400UN 13 PSMN030-150P 9 BSP225 16 BTA216B 36 BUK150-50DL 24 BUK7609-75A 19 BUK953R2-40B 20 BYM357X 39 PBSS301ND 34 PEMD6 35 PHK18NQ03LT 5 PIP3107-D 45 PMF780SN 13 PSMN035-150B 8 BSP230 16 BTA216B 36 BUK1M200-50SDLD 25 BUK7610-100B 20 BUK9540-100A 19 BYM358X 39 PBSS301PD 34 PEMD9 35 PHK24NQ04LT 5 PIP3115-B 45 PMG370XN 13 PSMN035-150P 9 BSP250 16 BTA216X 36 BUK1M200-50SGTD 25 BUK7611-55A 18 BUK954R2-55B 20 BYM359DX 39 PBSS302ND 34 PH16030L 5 PHK28NQ03LT 5 PIP3117-B 45 PMGD280UN 17 PSMN038-100K 9 BSP254A 16 BTA216X 36 BUK208-50Y 24 BUK7611-55B 20 BUK954R4-40B 20 BYM359X 39 PBSS302PD 34 PH1875L 9 PHK31NQ03LT 5 PIP3118-B 45 PMGD290XN 17 PSMN040-200W 9 BSP89 14 BTA225 36 BUK209-50Y 24 BUK7613-75B 20 BUK9560-100A 19 BYQ28E-200 41 PBSS3515E 33 PH1955L 7 PHK4NQ10T 9 PIP3119-P 45 PMGD370XN 17 PSMN057-200B 8 BSS123 13 BTA225-600BT 36 BUK210-50Y 24 BUK7614-55A 18 BUK9575-100A 19 BYQ28ED-200 40 PBSS3515M 33 PH20100S 9 PHK4NQ20T 9 PIP3121-A 45 PMGD400UN 17 PSMN057-200P 9 BSS84 16 BTA225B 36 BUK210-50YT 24 BUK76150-55A 18 BUK9575-55A 18 BYQ28X-200 41 PBSS3515VS 34 PH2520U 5 PHK5NQ15T 9 PIP3122-R 45 PMGD780SN 17 PSMN063-150D 9 BSS87 15 BTA312 36 BUK2114-50SYTS 24 BUK7615-100A 19 BUK9604-40A 18 BYQ30E-200 41 PBSS3540E 33 PH2625L 5 PHKD13N03LT 17 PIP3201-A 45 PMGD8000LN 17 PSMN070-200B 8 BST72A 13 BTA312 36 BUK211-50Y 24 BUK7616-55A 18 BUK9605-30A 18 BYR29-600 41 PBSS3540M 33 PH2925U 5 PHKD3NQ10T 17 PIP3202-DC 45 PMK35XP 16 PSMN070-200P 9 BST82 13 BTA312 36 BUK211-50YT 24 BUK7620-100A 19 BUK9606-40B 20 BYR29-800 41 PBSS4120T 32 PH3075L 9 PHKD6N02LT 17 PIP3203-A 45 PMKD23XC 17 PSMN085-150K 9 BT1306-D 37 BTA312B 36 BUK212-50Y 24 BUK7620-55A 18 BUK9606-55A 18 BYR29X-600 41 PBSS4130T 32 PH3120L 5 PHN203 17 PIP3205-A 45 PML260SN 13 PSMN130-200D 9 BT1308-D 37 BTA312B 36 BUK212-50YT 24 BUK7623-75A 19 BUK9606-55B 20 BYT28-300 41 PBSS4140DPN 34 PH3230S 5 PHN210T 17 PIP3206-R 45 PML340SN 15 PSMN165-200K 11 BT1308W-D 37 BTA312B 36 BUK213-50Y 24 BUK7624-55A 18 BUK9606-75B 20 BYT28-500 41 PBSS4140S 33 PH3330L 5 PHN603S 17 PIP3207-DC 45 PMLD45EN 17 PUMD10 35 BT131 37 BTA312X 36 BUK2138-50SYAA 24 BUK7626-100B 20 BUK9607-30B 20 BYT79-500 41 PBSS4140T 32 PH3475S 9 PHP101NQ03LT 5 PIP3208-A 45 PMMT491A 32 PUMD12 35 BT131 37 BTA312X 36 BUK2138-50TYAA 24 BUK7628-100A 19 BUK9608-55A 18 BYT79-600 39 PBSS4140U 32 PH3830L 5 PHP101NQ04T 5 PIP3209-R 45 PMMT591A 32 PUMD13 35 BT131 37 BTA316 36 BUK214-50Y 24 BUK7628-55A 18 BUK9608-55B 20 BYT79-600 41 PBSS4140V 33 PH3855L 7 PHP110NQ06LT 7 PIP3210-R 45 PMN23UN 12 PUMD14 35 BT131W 37 BTA316 36 BUK215-50Y 24 BUK762R7-30B 20 BUK9609-40B 20 BYT79X-600 39 PBSS4160DPN 34 PH4530L 5 PHP110NQ08LT 9 PIP3211-R 45 PMN27UN 12 PUMD15 35 BT132-D 37 BTA316 36 BUK216-50Y 24 BUK7635-100A 19 BUK9609-55A 18 BYT79X-600 41 PBSS4160DS 34 PH4840S 5 PHP110NQ08T 9 PIP3212-A 45 PMN28UN 12 PUMD16 35 BT134 37 BTA316B 36 BUK217-50Y 24 BUK7635-55A 18 BUK9609-75A 19 BYV29-400 39 PBSS4160K 32 PH5330E 5 PHP112N06T 7 PIP3213-R 45 PMN34LN 12 PUMD17 35 BT134 37 BTA316B 36 BUK218-50DC 25 BUK763R1-40B 20 BUK9610-100B 20 BYV29-400 41 PBSS4160T 32 PH6325L 5 PHP119NQ06T 7 PIP3218-R 45 PMN34UN 12 PUMD18 35 BT134W 37 BTA316B 36 BUK218-50DY 25 BUK7640-100A 19 BUK9610-55A 18 BYV29-500 39 PBSS4160U 32 PH7030L 5 PHP129NQ04LT 5 PIP3221-DC 45 PMN38EN 12 PUMD19 35 BT134W 37 BTA316X 36 BUK219-50Y 24 BUK764R0-55B 20 BUK9611-55A 18 BYV29-500 41 PBSS4160V 33 PH8030L 5 PHP12NQ15T 9 PIP3224-DC 45 PMN40LN 12 PUMD2 35 BT136 37 BTA316X 36 BUK220-50Y 24 BUK764R3-40B 20 BUK9612-55B 20 BYV29-600 39 PBSS4160V 33 PH8230E 5 PHP143NQ04T 5 PIP401 45 PMN45EN 12 PUMD20 35 BT136 37 BTH151S-xxxR 38 BUK221-50DY 25 BUK765R2-40B 20 BUK9614-55A 18 BYV29-600 41 PBSS4230T 32 PH955L 7 PHP14NQ20T 11 PMBF170 13 PMN50XP 16 PUMD24 35 BT136B 37 BU1506DX 26 BUK223-50Y 24 BUK7660-100A 19 BUK96150-55A 18 BYV29B-500 41 PBSS4240DPN 34 PHB101NQ04T 4 PHP152NQ03LTA 5 PMEG1020EA 31 PMN55LN 12 PUMD3 35 BT136S 37 BU1507AX 26 BUK224-50Y 24 BUK7675-100A 19 BUK9615-100A 19 BYV29B-600 39 PBSS4240T 32 PHB108NQ03LT 4 PHP153NQ08LT 9 PMEG1020EH 31 PMP4201G 29 PUMD4 35 BT136S 37 BU1507DX 26 BUK2914-50SYTS 24 BUK7675-55A 18 BUK9616-55A 18 BYV29B-600 41 PBSS4240V 33 PHB110NQ06LT 6 PHP160NQ08T 9 PMEG1020EJ 31 PMP4201V 29 PUMD48 35 BT136S 37 BU1508AX 26 BUK2938-50TYAA 24 BUK78150-55A 18 BUK9616-75B 20 BYV29X-500 41 PBSS4240Y 33 PHB110NQ08LT 8 PHP174NQ04LT 5 PMEG1020EV 31 PMP4201Y 29 PUMD6 35 BT136X 37 BU1508DX 26 BUK6213-30A 18 BUK7905-40AI 23 BUK96180-100A 19 BYV29X-600 39 PBSS4250X 32 PHB110NQ08T 8 PHP176NQ04T 5 PMEG1030EJ 31 PMP4501G 29 PUMD9 35 BT136X 37 BU2506DF 26 BUK7105-40AIE 23 BUK7905-40AIE 23 BUK9618-55A 18 BYV29X-600 41 PBSS4320T 32 PHB112N06T 6 PHP18NQ10T 9 PMEG2005AEA 31 PMP4501V 29 SI2302DS 13 BT136X 37 BU2506DX 26 BUK7105-40ATE 23 BUK7905-40ATE 23 BUK9620-100A 19 BYV32E-100 41 PBSS4320T 32 PHB119NQ06T 6 PHP18NQ11T 9 PMEG2005AEL 31 PMP4501Y 29 SI2304DS 13 BT137 37 BU2507AX 26 BUK7107-40ATC 23 BUK7907-40ATC 23 BUK9620-55A 18 BYV32E-150 41 PBSS4320X 32 PHB11N06LT 6 PHP191NQ06LT 5 PMEG2005AEV 31 PMP5201G 29 TDA3661 42 BT137 37 BU2507DX 26 BUK7107-55AIE 23 BUK7907-55AIE 23 BUK9623-75A 19 BYV32E-200 41 PBSS4330X 32 PHB129NQ04LT 4 PHP193NQ06T 5 PMEG2005EB 31 PMP5201V 29 TDA3663 42 BT137B 37 BU2508AF 26 BUK7107-55ATE 23 BUK7907-55ATE 23 BUK9624-55A 18 BYV32EB-200 41 PBSS4350D 32 PHB143NQ04T 4 PHP20N06T 7 PMEG2005EH 31 PMP5201Y 29 TDA3664 42 BT137B 37 BU2508AX 26 BUK7108-40AIE 23 BUK7908-40AIE 23 BUK9628-100A 19 BYV34-400 41 PBSS4350S/SA 33 PHB145NQ06T 6 PHP20NQ20T 9 PMEG2005EJ 31 PMP5501G 29 TEA1506 44 BT137S 37 BU2508DF 26 BUK7109-75AIE 23 BUK7909-75AIE 23 BUK9628-55A 18 BYV34-500 41 PBSS4350T 32 PHB146NQ06LT 4 PHP21N06LT 7 PMEG2005EL 31 PMP5501V 29 TEA1507 44 BT137S 37 BU2508DX 26 BUK7109-75ATE 23 BUK7909-75ATE 23 BUK9629-100B 20 BYV34-600 39 PBSS4350X 32 PHB152NQ03LTA 4 PHP222NQ04LT 5 PMEG2005ET 31 PMP5501Y 29 TEA1520 44 BT137X 37 BU2520AF 26 BUK714R1-40BT 23 BUK794R1-40BT 23 BUK962R8-30B 20 BYV34-600 41 PBSS4350Z 32 PHB153NQ08LT 8 PHP225 17 PMEG2010AEB 31 PMR280UN 13 TEA1521 44 BT137X 37 BU2520AX 26 BUK7207-30B 20 BUK7C06-40AITE 23 BUK9635-100A 19 BYV34X-600 39 PBSS4480X 34 PHB160NQ08T 8 PHP225NQ04T 5 PMEG2010AEH 31 PMR290XN 13 TEA1522 44 BT138 37 BU2520DF 26 BUK7208-40B 20 BUK7C08-55AITE 23 BUK9635-55A 18 BYV34X-600 41 PBSS4520X 34 PHB174NQ04LT 4 PHP23NQ11T 9 PMEG2010AEJ 31 PMR370XN 13 TEA1523 44 BT138B 37 BU2520DX 26 BUK7212-55B 20 BUK7C10-75AITE 23 BUK963R2-40B 20 BYV40E-150 41 PBSS4540X 34 PHB176NQ04T 4 PHP27NQ11T 9 PMEG2010BEA 31 PMR400UN 13 TEA1532 44 BT138B 37 BU2522AF 26 BUK7213-40A 18 BUK7E04-40A 18 BUK9640-100A 19 BYV42E-150 41 PBSS4540Z 34 PHB18NQ10T 8 PHP28NQ15T 9 PMEG2010BEV 31 PMR780SN 13 TEA1533 44 BT138X 37 BU2522AX 26 BUK7214-75B 20 BUK7E11-55B 20 BUK964R2-55B 20 BYV42E-200 41 PBSS5120T 32 PHB191NQ06LT 4 PHP29N08T 9 PMEG2010EA 31 PMTD280UN 17 TEA1552 44 BT139 37 BU2525AF 26 BUK72150-55A 18 BUK7E2R7-30B 20 BUK964R4-40B 20 BYV42EB-200 41 PBSS5130T 32 PHB193NQ06T 4 PHP3055E 7 PMEG2010EH 31 PMTD290XN 17 TEA1610 44 BT139 37 BU2525AW 26 BUK7215-55A 18 BUK7L06-34ARC 23 BUK9660-100A 19 BYV44-500 41 PBSS5140S 33 PHB20N06T 6 PHP30NQ15T 9 PMEG2010EJ 31 PMTD370XN 17 TEA1620 44 BT139B 37 BU2525AX 26 BUK7222-55A 18 BUK7L11-34ARC 23 BUK9675-100A 19 BYV72EW-200 41 PBSS5140T 32 PHB20NQ20T 8 PHP32N06LT 7 PMEG2010EV 31 PMTD400UN 17 TEA1622 44 BT139B 37 BU2525DX 26 BUK7225-55A 18 BUK9107-40ATC 23 BUK9675-55A 18 BYV74W-400 41 PBSS5140U 32 PHB21N06LT 6 PHP33NQ20T 9 PMEG2015EA 31 PMTD780SN 17 TEA1623 44 BT139X 37 BU2527AF 26 BUK7226-75A 19 BUK9107-55ATE 23 BUK98150-55A 18 BYV79E-200 41 PBSS5140V 33 PHB222NQ04LT 4 PHP34NQ11T 9 PMEG2015EH 31 PMV117EN 13 UBA2014 43 BT139X 37 BU2527AX 26 BUK7227-100B 20 BUK9120-48TC 23 BUK98180-100A 19 BYW29E-100 41 PBSS5160DS 34 PHB225NQ04T 4 PHP45N03LTA 5 PMEG2015EJ 31 PMV213SN 13 UBA2021 43 BT145 38 BU2527DX 26 BUK7230-55A 18 BUK9207-30B 20 BUK9832-55A 18 BYW29E-150 41 PBSS5160K 32 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