Version 5.0 Discrete and standard IC product guide Discrete and standard IC product guide Zetex Semiconductors is a specialist in analog technology. We design and manufacture semiconductor solutions for the management of power and analog signals in high performance products. Zetex is a long-standing supplier of industry leading bipolar discrete components and linear ICs and the current products are detailed in this selection guide. Application specific products As well as our experience in discrete and linear ICs, Zetex produces a range of application specific products that meet the requirement for greater power efficiency, precision and speed in LED driving, audio power amplifier and satellite applications. Further information on these products is available on request. High efficiency, cost effective LED driving High performance digital and analog Class D amplifier technology Meeting the challenges of Direct Broadcast by Satellite (`DBS') A comprehensive range of LED drivers for a wide variety of application sectors. Advanced signal processing chipsets delivering the needs of advanced AV entertainment systems System focused solutions for signal and power management * Buck, boost and buck / boost configurations * Optimum audio performance * Highly integrated products * High energy efficiency for low power consumption * Reduced size and system cost * Flexible processing platform supports a broad range of power levels and channel formats * Lowest LNB power consumption * Efficiencies of up to 95% * Capable of driving 1- 16 high power LEDs * Simple and practical in use Contact Zetex for further information or see www.zetex.com 2 * Reliability in extreme environments Version 5.0 Discrete and standard IC product guide Discrete and standard IC product guide Discrete semiconductors Standard ICs As an expert in the management of power, Zetex Semiconductors provides product designers with a broad range of discrete semiconductor components that are renowned for their quality, high performance and optimized packaging. The best power management ICs provide circuit designers with the most advantageous combination of efficiency, functionality and package size. With its leading edge bipolar technology, Zetex has long set the benchmark for bipolar transistor performance with very low saturation voltages and high power density components. Zetex Semiconductors is able to offer a portfolio of devices that meet the requirements of a wide range of electronic applications by addressing these competing design criteria to produce elegant and practical solutions, Concise product data for the complete range of bipolar transistors, diodes and MOSFETs is presented in this selection guide. 4 As an expert in power management, Zetex works closely with customers and partners to define the precise needs of a particular application and to identify the most appropriate integrated solution. With its knowledge and technology leadership, Zetex has created the range of innovative and competitive power management ICs presented here. Quality assurance, environmental and RoHS compliance Emphasizing its ongoing commitment to product quality, Zetex enjoys corporate status as an ISO/TS 16949:2002 certified company the industry's most comprehensive quality management standard for companies operating in the global automotive procurement chain. This award enhances the company's worldwide operation as a recognized ISO 9001:2000 supplier and is complemented by Zetex gaining ISO14001 certification in March 2006. ISO14001 is the standard that forms the cornerstone of today's emerging environmental practices for responsible industrial management. Certification to all of these management systems underlines Zetex' determination to harmonize products and processes to satisfy international quality, environmental standards and customer requirements, while seeking to minimize any adverse environmental impact. The restriction on the use of certain hazardous substances (RoHS) legislation currently poses designers and manufacturers with yet another hurdle in bringing products to market. 5 As an active supporter of environmentally friendly practices, Zetex began conversion of its portfolio to RoHS compliance early in 2003. All Zetex products are now available in a RoHS compliant format, without any changes to performance or specification. For more information, visit www.zetex.com/leadfree Contents 1.0 Bipolar transistors Bipolar transistors up to 500V NPN Avalanche transistors NPN & PNP Darlington transistors H-bridges NPN/PNP combinations 2.0 Varactor (tuner) diodes 30V to 50V devices 60V to 70V devices 38 39 Power diodes 40 42 43 45 80V to 100V devices 150V to 450V devices 48 49 Industry standard references 61 Gate Drive transistors Current monitors Current output current monitors Voltage output current monitors 5.0 Article 30 31 32 34 Transistor and Schottky diode combinations MOSFETs 20V devices 4.0 Dual NPN and PNP transistors Diodes Schottky Diodes 3.0 8 28 28 29 29 54 56 Voltage references Shunt regulators Micro-power voltage regulators 59 60 6 6.0 Linear regulators Miniature linear regulators Industry standard improved regulators 7.0 Single and multi-cell system power boost controllers Siren Driver 69 70 Transistors and Schottky diode combinations 71 73 74 Temperature sensor 74 75 Magneto-resistive sensors Package information Package information Thermal data 10.0 66 67 Special functions Supply voltage monitors (uP generators) 9.0 Micro-power low dropout regulators Ultra-low dropout regulators DC-DC boost converters Low power DC-DC boost converters 8.0 64 65 76 82 Alphanumeric index 7 Bipolar transistors Section 1.0 Today's portable devices demand power switches that can operate efficiently within limited power supply headroom. The combination of low saturation voltages, high gain, and low voltage drive characteristics that bipolars offer makes them the natural choice for operation at the 5V level and below. Add their ruggedness and low thermal resistance within minimal footprints and it's easy to see why bipolars can also outperform MOSFETs in higher voltage applications that range from automotive power converters to telecomms interfaces. Zetex Semiconductors offers a portfolio of bipolar products that builds on successive generations of process know-how, leading edge design and innovation to manage voltages up to 500V with maximum efficiency. Its latest range of products extends the company's leadership in building ultra-low saturation voltage bipolar transistors that permit ever smaller surface mount packages to control continuous currents of several amps. Crucially, the specific die-area resistance of these bipolar transistors is significantly less than that of competing MOSFETs, and is especially suited to operation within cost sensitive, power-conscious, and space-constrained portable applications. For a more in-depth comparison of bipolar and MOSFET technology read the article at the back of the Discrete Component section of this brochure. 8 Multichip devices that combine transistors and Schottky diodes within leadless QFN packages are also available from Zetex to conserve valuable space in high-density assemblies. These devices especially suit charger circuits, DC-DC converters, MOSFET gate drivers, and motor control applications in mobile and portable equipment. High voltage applications such as backlight inverters, motor drivers, and subscriber-line interface cards also benefit from bipolar transistor technology. Here too the bipolar's low saturation voltage challenges MOSFETs in low to medium current applications, and the availability of surface mount packages that dissipate up to 3W in SOT223 outline further promotes overall design efficiency. 1.0 Bipolars transistors Contents Devices up to 25V NPN transistors 10-12 PNP transistors 13-15 Devices from 30 to 50V NPN transistors 16-17 PNP transistors 18-19 Devices from 55 to 100V NPN transistors 20-21 PNP transistors 22-23 Devices from 120 to 220V NPN transistors 24 PNP transistors 25 Devices from 300 to 500V NPN transistors 26 PNP transistors 27 NPN avalanche transistors 28 NPN Darlington transistors 28 PNP Darlington transistors 28 H-bridges 29 NPN/PNP combinations 29 Dual NPN transistors 30 Dual PNP transistors 30 Transistor and Schottky diode combinations 31 Gate drive transistors 32 Article: Applications dictate bipolar or MOSFET power switch choices 34 9 NPN transistors up to 25V Part number VCEO IC ICM PD V A A W Min. Max. @ IC A Max. mV @ IC A FZT1047A 10 5 20 2.5 300 1200 1 40 0.5 200 - 5 350 5 25 FCX1047A 10 4 20 1 300 1200 1 40 0.5 10 200 - 4 240 4 50 500 1500 0.01 60 1 10 185 _ 6.5 130 2 20 500 1500 0.01 32 1 100 300 - 4 190 6 120 1500 0.1 85 1 10 20 ZXTN25012EZ ZXTN25012EFH 12 12 6.5 6 15 15 2.4 1.25 hFE VCE(sat) fT RCE(sat) @ IB mA MHz m 10 150 44 SOT223 (T1) 150 40 SOT89 (T1) 260 25 SOT89 (T1) 260 23 SOT23 (T1) 220 43 SOT23F (T1) 150 83 SOT223 (T1) 150 - SOT89 (T1) 150 - E-Line (T1) 280 46 SOT23 (T1) 235 19 SOT23 (T1) 72 29 SOT23-6 (T1) 240 25 SOT23 (T1) 120 45 DFN322 (T1) 120 50 SOT23-6 (T1) 120 50 SOT89 (T1) 120 50 SOT23 (T1) 145 37 SOT23(T1) 180 135 SOT323 (T1) 150 50 SOT223 (T1) 150 - 150 18 SOT23F (T1) 160 20 SOT223 (T1) ZXTN07012EFF 12 4.5 10 1.5 500 330 - 4.5 150 2 FZT688B 12 4 10 2 500 - 0.1 40 0.1 1 400 - 3 400 4 50 500 - 0.1 40 0.1 1 400 - 3 350 3 10 500 - 0.1 40 0.1 1 400 - 3 350 3 20 1500 0.01 85 1 10 FCX688B ZTX688B 12 12 3 3 10 10 1 1 ZXTN25012EFL 12 2 15 0.350 500 210 - 5 130 2 40 ZXTN23015CFH 15 6 12 1.25 200 560 0.5 30 1 100 150 - 6 180 6 120 300 900 1 70 1 10 200 - 5 200 5 100 300 900 0.01 40 1 100 150 - 5 215 5 100 - 0.2 14 0.1 10 ZXT13N15DE6 ZXTN25015DFH 15 15 5 5 15 15 1.1 1.25 ZXTAM322 15 4.5 15 1.5 300 150 - 5 280 4.5 50 ZXT10N15DE6 15 4 13 1.1 300 - 0.2 14 0.1 10 200 - 3 260 4 50 300 - 0.2 14 0.1 10 200 - 3 300 4 50 300 - 0.2 14 0.1 10 200 - 3 200 3 50 900 0.2 80 1 10 FCX617 FMMT617 15 15 3 3 12 12 1 0.625 ZXT11N15DF 15 3 5 0.625 300 200 - 3 150 3 150 ZUMT617 15 1.5 5 0.385 300 - 0.1 20 0.1 10 200 - 1 245 1.5 20 300 1200 1 45 0.5 10 180 - 5 350 5 25 300 1200 1 45 0.5 10 220 - 4 245 4 20 0.1 65 1 10 FZT1048A ZTX1048A 17.5 17.5 5 4 20 20 2.5 1 ZXTN19020CFF 20 7.0 20 1.5 200 500 - 7.0 70 2 40 ZXTN19020DG 20 9 20 3 300 900 0.1 70 1 10 130 - 9 100 2 20 10 Package E-Line (T1) 1.0 Bipolars transistors NPN transistors up to 25V Part number VCEO IC ICM PD V A A W Min. Max. @ IC A Max. mV @ IC A ZXTN19020DZ 20 7.5 20 2.4 300 900 0.1 70 1 150 - 7.5 100 2 20 ZXTN25020DG 20 7 15 3 300 900 0.01 48 1 100 50 - 7 180 2 20 300 900 0.1 65 1 10 160 - 6.5 95 2 20 300 900 0.01 48 1 100 50 - 6 180 2 20 900 1 75 1 10 ZXTN19020DFF 20 ZXTN25020DZ 20 6.5 20 6 15 hFE 1.5 2.4 VCE(sat) fT RCE(sat) @ IB mA MHz m 10 160 21 SOT89 (T1) 215 31 SOT223 (T1) 160 18 SOT23F (T1) 215 30 SOT89 (T1) 96 38 SOT23-6 (T1) 215 28 SOT23 (T1) 140 47 DFN322 (T1) 185 27 SOT23 (T1) 185 28 SOT23 (T1) 140 55 SOT23-6 (T1) 140 - 150 92 150 - E-Line (T1) 160 40 SOT23 (T1) 140 50 SOT23 (T1) 215 55 SOT23 (T1) 195 140 SOT23 (T1) 210 125 SOT323 (T1) ZXT13N20DE6 20 4.5 15 1.1 300 200 - 5 230 4.5 45 ZXTN25020DFH 20 4.5 15 1.25 300 900 0.01 43 1 100 120 - 4.5 265 4.5 90 300 - 0.2 15 0.1 10 100 - 6 270 4.5 125 100 300 0.01 45 1 100 75 - 4.5 240 4.5 90 500 0.01 45 1 100 ZXTBM322 20 ZXTN25020BFH 20 4.5 12 4.5 10 1.5 1.25 ZXTN25020CFH 20 4.5 10 1.25 200 90 - 4.5 220 4.5 90 ZXT10N20DE6 20 3.5 19 1.1 300 - 0.2 15 0.1 10 200 - 2 250 3.5 100 ZTX618 20 FZT689B 20 3.5 10 3 8 1 2 300 - 0.2 15 0.1 10 170 - 3 255 3.5 50 500 - 0.1 100 0.1 0.5 400 - 2 450 3 20 - 0.1 100 0.1 0.5 10 ZTX689B 20 3 8 1 500 400 - 2 500 2 ZXT11N20DF 20 2.5 5 0.625 300 900 0.1 100 1 10 150 - 3 130 2.5 250 300 - 0.2 15 0.1 10 200 - 2 200 2.5 50 300 900 0.01 100 1 20 220 - 2 225 2 20 - 0.2 35 0.1 10 FMMT618 20 ZXTN25020DFL 20 2.5 6 2 8 0.625 0.350 FMMTL618 20 1.25 4 0.5 300 200 - 1 280 1.25 100 ZUMT618 20 1.25 4 0.385 300 - 0.1 25 0.1 10 100 - 1 250 1.25 50 Package E-Line (T1) SOT223 (T1) continued overleaf... B E C C E E C C B C E C B B B C C C C C B E E Rounded face E B C Bottom V ew SOT223 (T1) SOT89 (T1) SOT23 (T1) SOT23F (T1) SOT23-6 (T1) * *Indicative relative size 11 SOT323 (T1) DFN322 (T1) CB E E-line (T1) NPN transistors up to 25V (continued) Part number VCEO IC ICM PD V A A W Min. Max. @ IC A Max. mV @ IC A BCX6825 20 1 2 1 160 400 0.5 500 1 FZT869 25 7 20 3 300 - 1 50 200 - 7 350 300 - 1 40 0.5 10 200 - 7 230 6.5 150 300 - 1 45 1 100 200 - 7 200 6.5 150 1200 1 60 0.5 10 ZXTN2005G ZXTN2005Z 25 25 7 5.5 20 20 3 2.1 hFE VCE(sat) fT RCE(sat) @ IB mA MHz m 100 100 - SOT89 (T1) 0.5 10 100 36 SOT223 (T1) 6.5 150 150 30 SOT223 (T1) 150 25 SOT89 (T1) 180 - SOT223 (T1) 100 - E-Line (T1) 180 - E-Line (T1) 240 - SOT223 (T1) 240 - E-Line (T1) FZT1049A 25 5 20 2.5 300 180 - 5 330 5 50 ZTX869 25 5 20 1.2 300 - 1 50 0.5 10 250 - 5 220 5 100 300 1200 1 45 0.5 10 200 - 4 220 4 50 100 300 1 300 1 100 75 - 2 600 3 300 100 300 1 300 1 100 75 - 2 500 2 200 ZTX1049A FZT649 ZTX649 25 25 25 4 3 2 20 8 6 1 2 1 12 Package 1.0 Bipolars transistors PNP transistors up to 25V Part number FZT968 FZT1147A VCEO IC ICM PD V A A W Min. Max. @ IC A Max. mV @ IC A -12 -6 -20 3 300 1000 -0.5 -130 200 - -5 -12 ZTX968 -12 ZXTP25012EZ -12 ZTX1147A -12 ZXT13P12DE6 -12 ZXT1M322 -12 -5 -20 -4.5 -20 -4.5 -10 -4 -20 -4 -15 -4 -12 hFE 2.5 1.2 2.4 1 1.1 1.5 VCE(sat) -12 -4 -10 1.25 RCE(sat) @ IB mA MHz m -0.5 -5 80 44 SOT223 (T1) -450 -6 -250 115 - SOT223 (T1) 80 - E-Line (T1) 310 45 SOT89 (T1) 115 - E-Line (T1) 55 37 SOT23-6 (T1) 110 60 DFN322 (T1) 310 40 SOT23 (T1) 250 50 SOT23F (T1) 115 53 SOT89 (T1) 110 77 SOT89 (T1) 110 - SOT223 (T1) 110 65 SOT23-6 (T1) 110 72 SOT23 (T1) 205 160 SOT23 (T1) 220 150 SOT323 (T1) 270 20 SOT23 (T1) 295 33 SOT23 (T1) 250 850 -0.5 -110 -0.5 -2.5 150 - -5 -400 -5 -50 300 1000 -0.5 -100 -0.5 -5 200 - -5 -300 -5 -200 500 1500 -0.01 -265 -1 -10 40 - -4.5 -355 -2 -40 250 850 -0.5 -130 -1 -6 170 - -4 -235 -4 -70 300 900 -1 -90 -1 -10 200 - -4 -250 -4 -50 300 - -0.1 -17 -0.1 -10 -8 -300 -4 -150 60 ZXTP25012EFH fT 500 1500 -0.01 -260 -1 -10 300 - -1 -350 -2 -40 1500 -0.01 -165 -1 -5 ZXTP07012EFF -12 -4 -8 1.5 500 230 - -4 -350 -2 -10 FCX1147A -12 -3 -20 1 250 850 -0.5 -110 -0.5 -2.5 200 - -3 -250 -3 -30 300 - -0.1 -20 -0.1 -10 -3 -320 -3 -50 -0.1 -17 -0.1 -10 -3 -320 -3 -50 - -0.1 -17 -0.1 -10 -2.5 -300 -3 -50 - -0.1 17 -0.1 -10 -2.5 -220 -2.5 -50 FCX717 -12 -3 -10 1 160 FZT717 -12 -3 -10 2 300 - 160 ZXT10P12DE6 -12 -3 -10 1.1 300 FMMT717 -12 -2.5 -10 0.625 300 180 180 FMMTL717 -12 -1.25 -4 0.5 300 - -0.1 -40 -0.1 -10 -1 -290 -1.25 -50 -0.1 -40 -0.1 -10 -1.25 -240 -1.25 -100 -0.5 -36 -1 -100 -240 180 ZUMT717 -12 -1.25 -3 0.385 300 - 125 ZXTP23015CFH -15 -6 -10 1.25 ZXTP25015DFH -15 -4 -10 1.25 200 560 140 - -6 -190 -6 300 900 -0.01 -55 -1 -100 90 - -4 -210 -4 -200 Package continued overleaf... B E C C E E C C B C E C B B B C C C C C B E E Rounded face E B C Bottom View SOT223 (T1) SOT89 (T1) SOT23 (T1) SOT23F (T1) SOT23-6 (T1) * *Indicative relative size 13 SOT323 (T1) DFN322 (T1) CB E E-line (T1) PNP transistors up to 25V (continued) Part number ZTX788A FZT788B VCEO IC ICM PD V A A W Min. Max. @ IC A Max. mV @ IC A -15 -3 -10 1 300 800 -0.01 -35 200 - 2 400 - -15 -3 -8 2 hFE VCE(sat) -15 -3 -8 1 400 RCE(sat) @ IB mA MHz m -0.1 -2 150 - -330 -3 -200 100 93 100 - 176 28 SOT223 (T1) 80 - SOT223 (T1) 176 28 SOT89 (T1) 290 42 SOT223 (T1) 176 26 SOT23F (T1) 200 21 SOT23F (T1) 290 39 SOT89 (T1) 80 - E-Line (T1) 285 41 SOT23F (T1) 250 32 SOT23 (T1) 285 34 SOT23 (T1) 290 39 SOT23 (T1) 110 31 SOT23-6 (T1) 90 47 SOT23-6 (T1) -1 -150 -0.5 -2.5 -2 -500 -3 -50 -1 -150 -0.5 -2.5 -2 -450 -2 -10 900 -0.1 -130 -1 -10 -40 300 ZTX788B fT - 300 ZXTP19020DG -20 -8 -15 3 300 45 - -8 -145 -2 FZT948 -20 -6 -20 3 100 300 -1 -130 -0.5 -10 -5 -450 -6 -250 75 ZXTP19020DZ ZXTP25020DG -20 -20 -6 -6 -15 -10 2.4 3 300 900 -0.1 -130 -1 -10 65 - -6 -145 -2 -40 300 900 -0.01 -65 -1 -100 25 - -6 -245 -2 -40 900 -0.1 -125 -1 -10 ZXTP19020DFF -20 -5.5 -15 1.5 300 90 - -5 -140 -2 -40 ZXTP19020CFF -20 -5 -15 1.5 200 500 -0.1 -70 -1 -20 110 - -5 -120 -2 -40 300 900 -0.01 -65 -1 -100 45 - -5 -245 -2 -40 100 300 -1 -100 -0.5 -10 -5 -250 -4 -400 -0.01 -110 -1 -20 ZXTP25020DZ ZTX948 -20 -20 -5 -4.5 -10 -20 2.4 1.2 75 E-Line (T1) SOT223 (T1) E-Line (T1) ZXTP25020CFF -20 -4.5 -10 1.5 200 150 - -1 -185 -2 -40 ZXTP25020BFH -20 -4 -10 1.25 100 300 -0.01 -60 -1 -100 50 - -4 -210 -4 -200 200 500 -0.01 -55 -1 -100 85 - -4 -210 -4 -200 300 900 -0.01 -60 -1 -100 70 - -4 -240 -2 -40 900 -1 -140 -1 -10 -3.5 -130 -3.5 -350 -1 -130 -1 -10 -3.5 -250 -3.5 -350 -1 -10 110 31 SOT23-6 (T1) 180 64 DFN322 (T1) 180 96 SOT89 (T1) 180 - E-Line (T1) ZXTP25020CFH ZXTP25020DFH -20 -20 -4 -4 -10 -10 1.25 1.25 ZX5T2E6 -20 -3.5 -10 1.1 300 ZXT13P20DE6 -20 -3.5 -10 1.1 300 500 Package 150 900 150 ZXTP2006E6 -20 -3.5 -10 1.1 150 ZXT2M322 -20 -3.5 -6 1.5 300 900 -1 -140 -3.5 -130 -3.5 -350 300 - -0.1 -30 -0.1 -10 -2 -300 -3.5 -350 -0.1 -40 -0.1 -10 -2 -300 -2.5 -200 150 FCX718 -20 -2.5 -6 1 300 - 150 ZTX718 -20 -2.5 -6 1 300 - 150 14 -0.1 -40 -0.1 -10 -2 -260 -2.5 -200 1.0 Bipolars transistors PNP transistors up to 25V Part number ZXT10P20DE6 VCEO IC ICM PD hFE VCE(sat) fT RCE(sat) V A A W Min. Max. @ IC A Max. mV @ IC A -20 -2.5 -6 1.1 300 - -0.1 -30 @ IB mA MHz m -0.1 -10 180 -2 75 SOT23-6 (T1) -350 -2.5 -150 -0.1 -40 -0.1 -10 180 97 SOT23 (T1) -2 -220 -1.5 -50 290 54 SOT23 (T1) 210 200 SOT323 (T1) 150 FMMT718 -20 -1.5 -6 0.625 300 - 150 ZXTP25020DFL -20 -1.5 -6 0.350 300 900 -0.01 -225 -1 -10 60 - -4 -275 -2 -40 - -0.1 -45 -0.1 -10 Package ZUMT718 -20 -1 -3 0.385 300 -1 -250 -1 -100 - BCX6925 -20 -1 -2 1 160 400 -0.5 -500 -1 -100 100 - SOT89 (T1) FMMTL718 -20 -1 -2 0.5 300 - -0.1 -50 -0.1 -10 265 210 SOT23 (T1) -1 -320 -1 -50 - SOT223 (T1) 67 SOT89 (T1) - E-Line (T1) - SOT89 (T1) - SOT223 (T1) - E-Line (T1) 100 120 FZT1149A -25 FCX1149A -25 -4 -10 -3 2.5 -10 1 250 800 -0.5 -240 -1 -7 135 115 - -5 -350 -4 -140 - 250 800 -0.5 -240 -1 -7 135 150 - -3 -300 -3 -100 - 800 -0.5 -170 -0.5 -3 135 ZTX1149A -25 -3 -10 1 250 115 - -5 -300 -3 -70 - FCX789A -25 -3 -8 1 230 - -1 -190 -1 -10 100 -2 -320 -3 -100 - 180 FZT749 -25 ZTX789A -25 -3 -8 -3 -8 2 1 100 300 -1 -300 -1 -100 160 75 - -2 -600 -3 -300 - 250 - -1 -250 -1 -10 100 -2 -500 -3 -100 - - -1 -250 -1 -10 100 -2 -500 -3 -100 - 100 300 -1 -300 -1 -100 160 75 - -2 -500 -2 -200 - 200 FZT789A -25 -3 -6 2 ZTX749 -25 -2 -6 1 250 200 93 - E-Line (T1) B E C C E E C C B C E C B B B C C C C C B E SOT223 (T1) E Rounded face E B C Bottom View SOT223 (T1) SOT89 (T1) SOT23 (T1) SOT23F SOT23-6 (T1) * *Indicative relative size 15 (T1) SOT323 (T1) DFN322 (T1) CB E E-line (T1) NPN transistors from 30 to 50V Part number ZXT849K FZT849 ZXTN2007G ZXTN2007Z VCEO IC PD V A W 30 7 4.2 30 30 30 7 7 6 3 3 2.1 ZTX849 30 5 1.2 FZT489 30 1 2 ZTX449 FMMT449 30 30 1 1 1 0.5 hFE Min. Max. VCE(sat) @ IC A Max. mV @ IC A fT RCE(sat) @ IB mA MHz m 100 33 DPAK (T1) 100 36 SOT223 (T1) 140 28 SOT223 (T1) 140 23 SOT89 (T1) 100 - E-Line (T1) 150 - SOT223 (T1) 150 - E-Line (T1) 150 250 SOT23 (T1) 150 175 SOT23 (T1) 155 50 SOT223 (T1) 190 38 SOT89 (T1) 190 35 SOT23 (T1) 155 - E-Line (T1) 155 57 SOT89 (T1) 190 59 SOT23 (T1) 150 - SOT223 (T1) 150 - SOT89 (T1) 150 195 SOT23 (T1) 150 - SOT23 (T1) 190 50 SOT23F (T1) 150 77 DPAK (T1) 150 125 SOT223 (T1) 150 - SOT89 (T1) 100 300 1 80 1 20 100 - 7 280 7 350 100 300 1 110 1 20 100 - 7 350 6.5 300 100 300 1 65 1 20 100 - 7 220 6.5 300 100 300 1 45 1 100 100 - 7 190 6.5 300 100 300 1 100 1 20 100 - 5 220 5 200 100 300 1 300 1 100 60 - 2 600 2 200 100 300 0.5 500 1 100 80 - 1 1000 2 200 100 300 0.5 500 1 100 80 - 1 1000 2 200 300 1 300 1 100 200 FMMT489 30 1 0.5 100 60 - 2 600 2 FZT1051A 40 5 2.5 270 1200 1 120 1 10 130 - 5 340 5 100 300 900 0.01 60 1 100 20 - 5 215 2 40 300 900 0.01 55 1 100 30 - 4 190 4 400 300 1200 1 110 1 10 ZXTN25040DZ ZXTN25040DFH 40 40 5 4 1.8 1.25 ZTX1051A 40 4 1 FCX1051A 40 3 1 ZXTN25040DFL FZT491A 40 40 1.5 1 0.350 2 190 - 4 210 4 100 270 1200 1 120 1 10 270 - 3 250 3 40 300 900 0.01 85 1 100 25 - 4 185 1.5 30 300 900 0.5 300 0.5 50 200 - 1 500 1 100 900 0.5 300 0.5 50 100 FCX491A 40 1 1 300 200 - 1 500 1 FMMT491A 40 1 0.5 300 900 0.5 300 0.5 50 200 - 1 500 1 100 300 900 0.5 300 0.5 50 200 - 1 500 1 100 500 1500 0.1 190 1 15 250 - 2 220 2 20 400 - 1 85 0.1 0.5 150 - 2 360 1 5 400 - 1 100 0.1 0.5 50 - 3 500 1 5 400 - 1 80 0.1 0.5 150 - 2 300 1 5 ZXTN2040F ZXTN07045EFF 40 45 1 6 0.35 1.5 ZXT690BK 45 3 3.9 FZT690B 45 3 2 FCX690B 45 2 1 16 Package 1.0 Bipolars transistors NPN transistors from 30 to 50V Part number VCEO IC PD hFE VCE(sat) V A W Min. Max. @ IC A Max. mV @ IC A ZTX690B 45 2 1 400 - 1 100 0.1 ZTX450 45 1 1 fT RCE(sat) Package @ IB mA MHz m 0.5 150 - E-Line (T1) 150 - 2 500 1 5 100 300 0.15 250 0.15 15 150 - E-Line (T1) 15 - 1 BCW66H 45 0.8 0.33 250 630 0.1 300 0.1 10 100 - SOT23 (T1) ZXTN2031F 50 5 1.2 200 560 0.5 40 1 100 125 24 SOT23 (T1) 5 170 5 250 165 68 DFN322 (T1) 200 40 SOT23 (T1) 115 36 SOT23-6 (T1) 165 87 SOT89 (T1) 170 75 SOT23-6 (T1) 165 75 SOT23 (T1) 180 160 SOT23 (T1) 215 160 SOT323 (T1) 80 ZXTCM322 50 4 1.5 300 - 0.2 20 0.1 10 100 - 2 320 4 200 900 0.01 60 1 100 400 ZXTN25050DFH 50 4 1.25 300 20 - 4 210 4 ZXT13N50DE6 50 4 1.1 300 900 1 100 1 10 100 - 4 230 4 100 FCX619 50 ZXT10N50DE6 3 50 FMMT619 3 50 2 1.5 1.1 0.625 300 - 0.2 25 0.1 10 100 - 2 320 2.75 100 300 - 0.2 20 0.1 10 100 - 2 200 2 50 300 - 0.2 20 0.1 10 100 - 2 220 2 50 - 0.2 45 0.1 10 FMMTL619 50 1.25 0.5 300 100 - 1 330 1.25 125 ZUMT619 50 1 0.385 300 - 0.1 35 0.1 10 75 - 1 270 1 50 C E C C B C C B C E E C E C B B B E SOT223 (T1) DPAK (T1) SOT89 (T1) SOT23 (T1) SOT23F (T1) * B C C C C B E E Rounded face E C B C CB E Bottom View SOT23-6 (T1) SOT323 (T1) DFN322 (T1) E-line (T1) * *Indicative relative size 17 PNP transistors from 30 to 50V Part number FZT949 ZX5T949G ZXTP2008G ZXTP2008Z VCEO IC PD V A W Min. Max. @ IC A -30 -5.5 3 100 300 75 - 100 300 70 - 100 300 70 - 100 -30 -30 -30 -5.5 -5.5 -5.5 3 3 2.1 hFE VCE(sat) fT RCE(sat) @ IB mA MHz m 100 - SOT223 (T1) 110 31 SOT223 (T1) 110 31 SOT223 (T1) 110 24 SOT89 (T1) 100 - E-Line (T1) 100 - SOT223 (T1) 100 - SOT223 (T1) 100 - SOT89 (T1) 100 - E-Line (T1) 100 250 SOT23 (T1) 100 250 SOT23 (T1) 100 250 SOT23 (T1) 152 29 SOT89 (T1) 152 29 SOT89 (T1) 270 55 SOT89 (T1) 200 67 SOT23F (T1) 100 83 DPAK (T1) 145 - SOT223 (T1) 100 125 SOT223 (T1) 190 104 DFN322 (T1) 270 55 SOT23 (T1) 115 58 SOT23-6 (T1) 145 66 SOT89 (T1) Max. mV @ IC A -1 -75 -0.5 -20 -5 -440 -5.5 -500 -1 -45 -0.5 -20 -5 -210 -5.5 -500 -1 -45 -0.5 -20 -5 -210 -5.5 -500 300 -1 -55 -1 -100 70 - -5 -175 -5.5 -500 300 -1 -60 -0.5 -20 ZTX949 -30 -4.5 1.2 100 75 - -5 -320 -5 -300 FZT549 -30 -1 2 100 300 -0.5 -500 -1 -100 80 - -1 -750 -2 -200 100 300 -0.5 -350 -1 -100 40 - -2 -650 -2 -200 100 300 -0.5 -350 -1 -100 80 - -1 -650 -2 -200 300 -0.5 -500 -1 -100 FZT589 FCX589 -30 -30 -1 -1 2 1 ZTX549 -30 -1 1 100 80 - -1 -750 -2 -200 FMMT549 -30 -1 0.5 100 300 -0.5 -500 -1 -100 40 - -2 -750 -2 -200 150 500 -0.5 -300 -0.1 -1 40 - -2 -750 -2 -200 100 300 -0.5 -350 -1 -100 80 - -1 -650 -2 -200 200 550 -0.5 -165 -1 -10 -175 -3.5 -175 -0.5 -70 -1 -50 FMMT549A FMMT589 ZXTP2009Z -30 -30 -40 -1 -1 -5.5 0.5 0.5 2.1 ZX5T3Z -40 -5.5 1.5 200 110 - 5.5 -185 -5.5 -550 ZXTP25040DZ -40 -3.5 2.4 300 900 -0.01 -90 -1 -100 20 - -3.5 -265 -1 -20 300 800 -0.01 -180 -0.5 -5 200 - -1 -540 -2 -40 250 - -0.5 -170 -0.5 -5 150 - -2 -350 -1 -10 250 800 -0.5 -180 -0.5 -5 100 - -3 -300 -3 -250 - -0.5 -250 -0.5 -5 -50 ZXTP07040DFF ZXT790AK FZT1151A -40 -40 -40 -3 -3 -3 1.5 3.9 2.5 550 FZT790A -40 -3 2 250 150 - -2 -750 -2 ZXT3M322 -40 -3 1.5 300 - -0.1 -40 -0.1 -10 60 - -1.5 -370 -2.5 -250 300 900 -0.01 -85 -1 -100 30 - -3 -220 -3 -300 300 900 -1 -200 -1 -20 100 - -3 -240 -3 -300 250 800 -0.5 -180 -0.5 -5 100 - -3 -300 -3 -350 ZXTP25040DFH ZXT13P40DE6 FCX1151A -40 -40 -40 -3 -3 -3 1.25 1.1 1 18 Package 1.0 Bipolars transistors PNP transistors from 30 to 50V Part number ZXT10P40DE6 FCX790A VCEO IC PD V A W Min. Max. @ IC A -40 -2 1.1 300 - 60 - 250 150 -40 ZTX790A -2 -40 ZXTP25040DFL 1 -2 -40 -1.5 1 0.350 hFE VCE(sat) fT RCE(sat) @ IB mA MHz m 190 105 100 - SOT89 (T1) 100 - E-Line (T1) 270 82 SOT23 (T1) 190 163 SOT23 (T1) 150 350 SOT223 (T1) 150 - SOT89 (T1) 150 350 SOT23 (T1) 150 350 SOT23 (T1) 220 240 SOT323 (T1) Max. mV @ IC A -0.1 -40 -0.1 -10 -1.5 -300 -2 -200 - -0.5 -250 -0.5 -5 - -2 -450 -2 -50 300 800 -0.01 -250 -0.5 -5 150 - -2 -750 -2 -50 300 900 -0.01 -95 -0.5 -20 15 - -3 -190 -1.5 -75 - -0.1 -40 -0.1 -10 -100 FMMT720 -40 -1.5 0.625 300 60 - -1.5 -330 -1.5 FZT591A -40 -1 2 300 800 -0.1 -200 -0.1 -1 160 - -1 -500 -1 -100 300 800 -0.1 -200 -0.1 -1 160 - -1 -500 -1 -100 300 800 -0.1 -200 -0.1 -1 160 - -1 -500 -1 -100 800 -0.1 -200 -0.1 -1 -100 FCX591A -40 FMMT591A -1 -40 -1 1 0.5 Package SOT23-6 (T1) ZXTP2041F -40 -1 0.35 300 160 - -1 -500 -1 ZUMT720 -40 -0.75 0.385 300 - -0.1 -65 -0.1 -10 40 - -0.75 -250 -0.75 -100 100 300 -0.15 -350 -0.15 -15 150 - E-Line (T1) 15 - -1 -300 -0.1 -10 100 - SOT23 (T1) 190 30 SOT23 (T1) ZTX550 -45 -1 1 BCW68H -45 -0.8 0.33 250 630 -0.1 ZXTP2025F -50 -5 1.2 200 560 -0.5 -60 -1 -100 -5 -200 -5 -500 70 C E C C B C C B C E E C E C B B B E SOT223 (T1) DPAK (T1) SOT89 (T1) SOT23 (T1) SOT23F (T1) * B C C C C B E E Rounded face E C B C CB E Bottom View SOT23-6 (T1) SOT323 (T1) DFN322 (T1) E-line (T1) * *Indicative relative size 19 NPN transistors from 55 to 100V Part number VCEO IC PD hFE VCE(sat) fT RCE(sat) V A W Min. Max. @ IC A Max. mV @ IC A @ IB mA ZXTN19055DZ 55 6 2.1 250 30 700 - 0.01 6 60 250 1 6 ZXTN19060CG 60 7 3 200 160 500 - 0.1 2 50 150 FZT851 60 6 3 100 25 300 - 2 10 ZXTN2010G 60 6 3 100 20 300 - ZX5T851G 60 6 3 100 20 ZXTN19060CFF 60 5.5 1.5 ZXTN2010Z 60 5 ZTX851 60 ZXTN2018F MHz m 100 600 200 28 SOT89 (T1) 1 2 100 40 130 30 SOT223 (T1) 100 375 1 6 50 300 130 44 SOT223 (T1) 2 10 70 260 1 6 50 300 130 - SOT223 (T1) 300 - 2 10 70 260 1 6 50 300 130 - SOT223 (T1) 200 160 500 - 0.1 2 45 135 1 2 100 40 130 26 SOT23F (T1) 2.1 100 20 300 - 2 10 55 230 1 6 100 300 130 - SOT89 (T1) 5 1.2 100 25 300 - 2 10 100 250 1 5 50 200 130 - E-Line (T1) 60 5 1.2 100 40 300 2 5 55 170 1 5 50 250 130 25 SOT23 (T1) ZXTN25060BZ 60 4.5 1.8 100 45 300 - 0.01 2 90 305 1 5 50 500 185 48 SOT89 (T1) ZXTN2010A 60 4.5 1 100 20 300 - 2 10 65 210 1 5 50 200 130 - E-Line (T1) ZX5T851A 60 4.5 1 100 20 300 - 2 10 65 210 1 5 50 200 130 - E-Line (T1) ZXTN25060BFH 60 3.5 1.25 100 25 300 - 0.01 3.5 65 175 1 3.5 100 350 185 43 SOT23 (T1) FZT651 60 3 2 100 40 300 - 0.5 2 600 3 300 140 - SOT223 (T1) ZTX651 60 2 1 100 40 300 - 0.5 2 500 2 200 140 - E-Line (T1) FZT491 60 1 2 100 300 0.5 500 1 100 150 - SOT223 (T1) FCX491 60 1 1 100 300 0.5 500 1 100 150 - SOT89 (T1) ZTX451 60 1 1 50 150 0.15 350 0.15 15 150 - E-Line (T1) FMMT451 60 1 0.5 50 150 0.15 350 0.15 15 150 400 SOT23 (T1) FMMT491 60 1 0.5 100 30 300 - 0.5 2 150 250 0.5 1 50 100 150 160 SOT23 (T1) FMMT493A 60 1 0.5 500 - 0.15 500 1 100 150 - SOT23 (T1) ZXTN2038F 60 1 0.35 100 80 300 - 0.5 1 200 250 0.1 0.5 2 50 150 - SOT23 (T1) ZUMT491 60 1 0.33 100 300 0.5 500 1 100 150 - SOT323 (T1) FZT692B 70 2 2 400 150 - 0.5 1 500 1 10 150 - SOT223 (T1) ZTX692B 70 1 1 400 150 - 0.5 1 500 1 10 150 - E-Line (T1) ZXT1053AK 75 5 4 300 50 1200 - 1 5 160 460 1 5 10 200 140 70 DPAK (T1) FZT1053A 75 4.5 2.5 300 40 1200 - 0.5 4.5 200 440 1 4.5 10 200 140 78 SOT223 (T1) FCX1053A 75 3 1 300 40 1200 - 0.5 4.5 200 440 1 4.5 10 200 140 78 SOT89 (T1) ZTX1053A 75 3 1 300 100 1200 - 1 3 150 250 1 3 10 100 140 - E-Line (T1) 20 Package 1.0 Bipolars transistors NPN transistors from 55 to 100V Part number VCEO IC PD hFE VCE(sat) fT RCE(sat) V A W Min. Max. @ IC A Max. mV @ IC A @ IB mA ZXTEM322 80 3.5 1.5 300 110 900 - 0.2 1 20 185 0.1 1 FMMT620 80 1.5 0.625 300 100 900 - 0.2 1 20 185 BCX5616 80 1 1 100 250 0.15 BSR43 80 1 1 100 300 FMMTA06 80 0.5 0.33 50 FZT853 100 6 3 ZXTN2011G 100 6 ZX5T853G 100 ZXTN19100CG MHz m 10 20 160 68 DFN322 (T1) 0.1 1 10 20 160 90 SOT23 (T1) 500 0.5 50 150 - SOT89 (T1) 0.1 250 0.15 15 100 - SOT89 (T1) - 0.1 250 0.1 10 100 - SOT23 (T1) 100 25 300 - 2 10 150 340 2 5 100 500 130 44 SOT223 (T1) 3 100 10 300 - 2 10 65 220 1 5 100 500 130 - SOT223 (T1) 6 3 100 10 300 - 2 10 65 220 1 5 100 500 130 - SOT223 (T1) 100 5.5 3 200 130 500 - 0.1 1 65 140 1 1 100 20 150 43 SOT223 (T1) ZXTN19100CZ 100 5.25 2.4 200 130 500 - 0.1 1 65 140 1 1 100 20 150 44 SOT89 (T1) ZXTN19100CFF 100 4.5 1.5 200 130 500 - 0.1 1 135 235 1 4.5 20 450 150 38 SOT23F (T1) ZXTN2011Z 100 4.5 2.1 100 10 300 - 2 10 60 195 1 5 100 500 130 - SOT89 (T1) ZX5T853Z 100 4.5 2.1 100 10 300 - 2 10 60 195 1 5 100 500 130 - SOT89 (T1) ZTX853 100 4 1.2 100 20 300 - 2 10 85 200 2 4 100 400 130 - E-Line (T1) ZXTN2020F 100 4 1.2 100 35 300 - 1 4 50 150 1 4 100 400 130 - SOT23 (T1) ZXTN25100DG 100 3 3 300 40 900 - 0.01 1 170 100 0.5 1 10 100 175 85 SOT223 (T1) ZXTN25100BFH 100 3 1.25 100 50 300 - 0.01 1 80 250 1 3 100 300 160 67 SOT23 (T1) ZXTN25100DFH 100 2.5 1.25 300 40 900 - 0.01 1 95 330 1 2.5 100 250 175 86 SOT23 (T1) ZXTN25100DZ 100 2.5 2.4 300 40 900 - 0.01 1 170 100 0.5 1 10 100 175 80 SOT89 (T1) FZT653 100 2 2 100 25 300 - 0.5 2 300 500 1 2 100 200 175 - SOT223 (T1) ZTX653 100 2 1 100 25 300 - 0.5 2 300 500 1 2 100 200 175 - E-Line (T1) FZT493 100 1 2 100 300 0.25 300 0.5 50 150 - SOT223 (T1) FCX493 100 1 1 100 300 0.25 300 0.5 50 150 - SOT89 (T1) ZTX453 100 1 1 40 200 0.15 700 0.15 15 150 - E-Line (T1) FMMT493 100 1 0.5 100 300 0.25 300 0.5 50 150 - SOT23 (T1) B C E C C DPAK E C C B C B E C E C B E Rounded face E C B B B C E (T1) Bottom View SOT223 (T1) SOT89 (T1) SOT23 (T1) SOT23F (T1) * *Indicative relative size 21 Package SOT323 (T1) DFN322 (T1) CB E E-line (T1) PNP transistors from 60 to 100V Part number ZXT951K ZX5T1951G VCEO IC PD V A W Min. Max. -60 -6 4.2 100 300 -2 -90 15 - -10 -400 100 - -0.01 -30 -0.1 -10 40 - -5 -260 -5 -500 300 -2 -70 -1 -100 -60 -6 3 hFE VCE(sat) @ IC A Max. mV fT RCE(sat) @ IB mA MHz m -1 -100 120 53 DPAK (T1) -6 -600 120 40 SOT223 (T1) 120 39 SOT223 (T1) 120 39 SOT223 (T1) 180 50 SOT223 (T1) 120 55 SOT223 (T1) 180 50 SOT89 (T1) 120 32 SOT89 (T1) 180 45 SOT23F (T1) 120 - E-Line (T1) @ IC A ZXTP2012G -60 -5.5 3 100 10 - -10 -250 -5 -500 ZX5T951G -60 -5.5 3 100 300 -2 -70 -1 -100 10 - -10 -250 -5 -500 500 -0.1 -80 -1 -100 ZXTP19060CG -60 -5 3 200 160 - -1 -205 -1 -20 FZT951 -60 -5 3 100 300 -2 -140 -1 -100 10 - -10 -460 -5 -500 500 -0.1 -80 -1 -100 ZXTP19060CZ -60 -4.5 2.4 200 160 - -1 -205 -1 -20 ZXTP2012Z -60 -4.3 2.1 100 300 -2 -65 -1 -100 10 - -10 -215 -5 -500 200 500 -0.1 -200 -1 -20 160 - -1 -270 -4 -400 100 300 -1 -100 -1 -100 10 - -10 -300 -4 -400 ZXTP19060CFF ZTX951 -60 -60 -4 -4 1.5 1.2 Package ZXTP2027F -60 -4 1.2 100 300 -2 -60 -1 -100 165 31 SOT23 (T1) ZXTP2012A -60 -3.5 1 100 300 -1 -65 -1 -100 120 38 E-Line (T1) 10 - -10 -210 -4 -400 FZT751 -60 -3 2 100 300 -0.5 -600 -3 -300 100 - 40 - -2 100 300 -0.01 -85 -1 -100 250 58 SOT23 (T1) 30 - -3 -235 -3 -300 100 300 -0.5 -500 -2 -200 100 - E-Line (T1) 40 - -2 ZXTP25060BFH ZTX751 -60 -60 -3 -2 1.25 1 SOT223 (T1) FZT591 -60 -1 2 100 300 -0.5 -600 -1 -100 150 - SOT223 (T1) FCX591 -60 -1 1 100 300 -0.5 -600 -1 -100 150 - SOT89 (T1) ZTX551 -60 -1 1 50 150 -0.15 -350 -0.15 -15 150 - E-Line (T1) FMMT551 -60 -1 0.5 50 150 -0.15 -350 -0.15 -15 150 - SOT23 (T1) FMMT591 -60 -1 0.5 100 300 -0.5 -180 -0.5 -50 150 355 SOT23 (T1) -350 -1 -100 -0.5 -200 -0.1 -2 150 - SOT23 (T1) -1 -300 -0.5 -50 300 -0.5 -300 0.5 -50 150 - SOT323 (T1) 150 117 DFN322 (T1) 100 - SOT223 (T1) 100 - E-Line (T1) 150 - SOT23 (T1) ZXTP2039F -60 -1 0.35 100 300 80 ZUMT591 -60 -1 0.33 ZXT4M322 -70 -2.5 1.5 100 300 - -0.1 -220 -1 -100 175 - -1 -260 -1.5 -200 - -0.5 -450 -0.5 -5 -200 FZT792A -70 -2 2 250 200 - -1 -500 -2 ZTX792A -70 -2 1 250 - -0.5 -450 -0.5 -5 200 - -1 -500 -2 -200 - -0.1 -220 -1 -100 FMMT722 -70 -1.5 0.625 300 175 - -1 -260 -1.5 -200 BCX5316 -80 -1 1 100 250 -0.15 -500 -0.5 -50 150 - SOT89 (T1) BSR33 -80 -1 1 100 300 -0.1 -500 -0.5 -50 100 - SOT89 (T1) 22 1.0 Bipolars transistors PNP transistors from 60 to 100V Part number VCEO IC PD V A W Min. Max. @ IC A Max. mV @ IC A FMMTA56 -80 -0.5 0.33 50 - -0.1 -250 -0.1 ZXT953K -100 -5 4.2 100 300 -1 -100 15 - -5 -335 100 300 -1 -140 -1 -100 30 - -5 -460 -5 -500 300 -1 -90 -1 -100 -400 FZT953 -100 -5 -3 hFE VCE(sat) fT RCE(sat) @ IB mA MHz m -10 100 - SOT23 (T1) -1 -100 125 67 DPAK (T1) -5 -500 125 55 SOT223 (T1) 125 60 SOT223 (T1) 125 60 SOT223 (T1) 125 57 SOT89 (T1) 125 - E-Line (T1) 150 45 SOT23 (T1) 142 95 SOT23F (T1) 142 100 SOT223 (T1) 142 100 SOT89 (T1) ZXTP2013G -100 -5 3 100 15 - -4 -340 -4 ZX5T953G -100 -5 3 100 300 -1 -90 -1 -100 15 - -4 -340 -4 -400 300 -1 -85 -1 -100 -400 ZXTP2013Z -100 -3.5 2.1 100 15 - -4 -300 -4 ZTX953 -100 -3.5 1.2 100 300 -1 -100 -1 -100 30 - -4 -330 -4 -400 100 300 ZXTP2029F -100 -3 1.2 40 500 -1 -80 -1 -100 -3 -180 -3 -300 -0.1 -120 -1 -10 ZXTP19100CFF -100 -2 1.5 200 70 - -1 -275 -2 -200 ZXTP19100CG -100 -2 3 200 500 -0.1 -125 -1 -100 70 - -1 -230 -1 -50 500 -0.1 -125 -1 -100 Package ZXTP19100CZ -100 -2 2.4 200 70 - -1 -230 -1 -50 FZT753 -100 -2 2 100 300 -0.5 -500 -2 -200 140 - SOT223 (T1) 25 - -2 300 -0.01 -130 -1 -100 200 108 SOT23 (T1) ZXTP25100BFH -100 -2 1.25 100 15 - -2 -295 -2 -200 ZTX753 -100 -2 1 100 300 -0.5 -500 -2 -200 120 - E-Line (T1) ZXTP25100CZ -100 -1 2.4 200 500 -0.01 -315 -0.5 -20 180 155 SOT89 (T1) 110 - -0.5 -225 -1 -100 -50 50 - SOT223 (T1) 180 150 SOT23 (T1) FZT593 -100 -1 2 100 300 -0.5 -300 -0.5 ZXTP25100CFH -100 -1 1.25 200 500 -0.01 -310 -0.5 -20 110 - -0.5 -220 -1 -100 FCX593 -100 -1 1 100 300 -0.5 -300 -0.5 -50 50 - SOT89 (T1) ZTX553 -100 -1 1 40 200 -0.15 -250 -0.15 -15 150 - E-Line (T1) FMMT723 -100 -1 0.625 300 - -0.1 -200 -0.5 -50 200 - SOT23 (T1) 250 - -0.5 -330 -1 -150 100 300 -0.5 -300 -0.5 -50 50 - SOT23 (T1) FMMT593 -100 -1 0.5 B C E C C E C C C E C B B C B E Rounded face E C B B B E DPAK (T1) E C CB E DFN322 (T1) E-line (T1) Bottom View SOT223 (T1) SOT89 (T1) SOT23 (T1) SOT23F (T1) * *Indicative relative size 23 SOT323 (T1) NPN transistors from 120 to 220V Part number VCEO IC PD hFE VCE(sat) fT RCE(sat) V A W Min. Max. @ IC A Max. mV @ IC A FZT694B 120 1 2 400 - 0.2 250 FMMT494 120 1 0.5 100 300 0.25 ZTX694B 120 0.5 1 400 - 0.2 FMMT624 125 1 0.625 300 - 100 - Package @ IB mA MHz m 0.1 0.5 130 - SOT223 (T1) 200 0.25 25 100 - SOT23 (T1) 250 0.1 0.5 130 - E-Line (T1) 0.2 220 0.5 10 100 - SOT23 (T1) 1 250 1 50 ZTX455 140 1 1 100 300 0.15 700 0.15 15 100 - E-Line (T1) FMMT455 140 1 0.5 100 300 0.15 700 0.15 15 100 - SOT23 (T1) FZT855 150 5 3 100 300 1 65 0.5 50 90 - SOT223 (T1) 15 - 5 355 5 500 100 300 1 60 0.5 50 90 - E-Line (T1) 35 - 4 260 4 400 ZTX855 150 4 1.2 FCX495 150 1 1 100 300 0.25 300 0.5 50 100 - SOT89 (T1) FZT655 150 1 2 50 300 0.5 500 0.5 50 30 - SOT223 (T1) FMMT625 150 1 0.625 300 - 0.2 200 0.1 1 100 - SOT23 (T1) 30 - 1 300 1 50 FMMT495 150 1 0.5 100 300 0.25 300 0.5 50 100 - SOT23 (T1) ZXTN5551FL 160 0.6 0.35 80 250 0.01 150 0.01 1 130 - SOT23 (T1) ZXTN5551Z 160 0.6 1.2 80 250 0.01 150 0.01 1 130 - SOT89 (T1) ZXTN5551G 160 0.6 2 80 250 0.01 150 0.01 1 130 - SOT223 (T1) FZT696B 180 0.5 2 500 - 0.1 250 0.2 5 70 - SOT223 (T1) ZTX696B 180 0.5 1 500 - 0.1 250 0.2 5 70 - E-Line (T1) ZXTN5551EFL* 220 0.6 0.35 120 300 0.01 100 0.05 5 100 SOT23 (T1) ZXTN5551EZ* 220 0.6 1.2 120 300 0.01 100 0.05 5 100 SOT223 (T1) ZXTN5551EG* 220 0.6 2 120 300 0.01 100 0.05 5 100 SOT89 (T1) * Advance information 24 1.0 Bipolars transistors PNP transistors from 120 to 220V Part number VCEO IC PD hFE VCE(sat) fT RCE(sat) V A W Min. Max. @ IC A Max. mV @ IC A FZT955 -140 -4 3 100 75 300 - -1 -3 -370 ZXTP2014G -140 -4 3 100 45 300 - -1 -3 ZX5T955G -140 -4 3 100 45 300 - ZXTP2014Z -140 -3 2.1 100 45 ZX5T955Z -140 -3 2.1 ZTX955 -140 -3 ZXTP23140BFH -140 ZXTP25140BFH Package @ IB mA MHz m -3 -300 110 - SOT223 (T1) -80 -360 -0.5 -3 -50 -300 120 92 SOT223 (T1) -1 -3 -80 -360 -0.5 -3 -50 -300 120 85 SOT223 (T1) 300 - -1 -3 -75 -330 -0.5 -3 -50 -300 120 85 SOT89 (T1) 100 45 300 - -0.5 -3 -75 -330 -0.5 -3 -50 -300 120 - SOT89 (T1) 1.2 100 75 300 - -1 -3 -330 -3 -300 110 - E-Line (T1) -2.5 1.25 100 40 300 - 1 -2.5 -95 -280 -1 -2.5 -100 -250 130 76 SOT23 (T1) -140 -1 1.25 100 20 300 - -0.01 -1 -50 -260 -0.1 -1 -10 -100 75 180 SOT23 (T1) FZT795A -140 -0.5 2 250 - -0.2 -300 -0.2 -5 100 - SOT223 (T1) ZTX795A -140 -0.5 1 250 - -0.2 -300 -0.2 -5 100 - E-Line (T1) FZT755 -150 -1 2 50 300 -0.5 -500 -1 -200 100 - SOT223 (T1) FMMT555 -150 -1 0.5 50 300 -0.3 -300 -0.1 -10 100 - SOT23 (T1) ZXTP5401FL -150 -0.6 0.35 60 240 -0.01 -200 -0.01 -1 100 - SOT23 (T1) ZXTP5401Z -150 -0.6 1.2 60 240 -0.01 -200 -0.01 -1 100 - SOT223 (T1) ZXTP5401G -150 -0.6 2 60 240 -0.01 -200 -0.01 -1 100 - SOT89 (T1) FCX555 -180 -0.7 1.5 100 100 300 -0.01 -0.1 -300 -400 -0.1 -0.25 -10 -25 100 - SOT89 (T1) FZT956 -200 -2 3 100 50 300 - -1 -2 -275 -2 -400 110 - SOT223 (T1) ZXTP03200BG* -200 -2 3 100 35 300 - -1 -2 -50 -160 -0.1 -1 -10 -100 120 120 SOT223 (T1) ZTX956 -200 -2 1.2 100 50 300 - -1 -2 -250 -2 -400 110 - E-Line (T1) FZT796A -200 -0.5 2 250 - -0.3 -300 -0.2 -20 100 - SOT223 (T1) ZTX796A -200 -0.5 1 250 - -0.3 -300 -0.2 -20 100 - E-Line (T1) FCX596 -200 -0.3 1 85 300 -0.25 -350 -0.25 -25 150 - SOT89 (T1) FMMT596 -200 -0.3 0.5 85 300 -0.25 -350 -0.25 -25 150 - SOT23 (T1) ZXTP5401EFL* -220 -0.6 0.35 100 300 -0.01 -150 -0.05 -5 100 SOT23 (T1) ZXTP5401EZ* -220 -0.6 1.2 100 300 -0.01 -150 -0.05 -5 100 SOT223 (T1) ZXTP5401EG* -220 -0.6 2 100 300 -0.01 -150 -0.05 -5 100 SOT89 (T1) * Advance information E C C C C B Rounded face E E C B B CB E SOT223 (T1) SOT89 (T1) SOT23 (T1) E-line (T1) * *Indicative relative size 25 NPN transistors from 300 to 500V Part number VCEO IC PD hFE VCE(sat) fT RCE(sat) V A W Min. Max. @ IC A Max. mV @ IC A FZT857 300 3.5 3 100 300 0.5 230 ZTX857 300 3 1.2 100 300 0.5 FZT657 300 0.5 2 50 - FZTA42 300 0.5 2 40 SXTA42 300 0.5 1 ZTX457 300 0.5 ZTX657 300 FMMT497 Package @ IB mA MHz m 2 200 80 - SOT223 (T1) 250 3 600 80 - E-Line (T1) 0.1 500 0.1 10 30 - SOT223 (T1) - 0.03 500 0.02 2 50 - SOT223 (T1) 40 - 0.03 500 0.02 2 50 - SOT89 (T1) 1 50 300 0.05 300 0.1 10 75 - E-Line (T1) 0.5 1 50 - 0.1 500 0.1 10 30 - E-Line (T1) 300 0.5 0.5 80 300 0.1 200 0.1 10 75 - SOT23 (T1) FMMTA42 300 0.2 0.33 40 - 0.03 500 0.02 2 50 - SOT23 (T1) BST39 350 0.5 1 40 - 0.02 500 0.05 4 70 - SOT89 (T1) FMMT6517 350 0.5 0.33 30 200 0.03 500 0.03 3 50 - SOT23 (T1) FZT658 400 0.5 2 50 - 0.1 500 0.1 10 50 - SOT223 (T1) ZXTN08400BFF 400 0.5 1.5 100 300 0.05 70 0.05 5 40 - SOT23F (T1) 10 - 0.5 170 0.3 30 FCX658A 400 0.5 1 55 - 0.1 200 0.2 10 50 - SOT89 (T1) ZTX658 400 0.5 1 50 - 0.1 500 0.1 10 50 - E-Line (T1) FZT458 400 0.3 2 100 300 0.05 500 0.05 6 50 - SOT223 (T1) ZTX458 400 0.3 1 100 300 0.05 500 0.05 6 50 - E-Line (T1) FCX458 400 0.225 1 100 300 0.05 500 0.05 6 50 - SOT89 (T1) FMMT458 400 0.225 0.5 100 300 0.05 500 0.05 6 50 - SOT23 (T1) FMMT459 500 0.15 0.625 50 - 0.03 75 0.02 2 50 - SOT23 (T1) 26 1.0 Bipolars transistors PNP transistors from 300 to 500V Part number VCEO IC PD hFE VCE(sat) fT RCE(sat) V A W Min. Max. @ IC A Max. mV @ IC A FZT957 -300 -1 3 100 300 -0.5 -240 ZTX957 -300 -1 1.2 100 300 -0.5 FZT757 -300 -0.5 2 40 - FZTA92 -300 -0.5 2 25 ZTX757 -300 -0.5 1 FMMT597 -300 -0.2 FMMTA92 -300 FMMT6520 Package @ IB mA MHz m -1 -300 85 - SOT223 (T1) -200 -1 -300 85 - E-Line (T1) -0.01 -500 -0.1 -10 30 - SOT223 (T1) - -0.03 -500 -0.02 -2 50 - SOT223 (T1) 40 - -0.01 -500 -0.1 -10 30 - E-Line (T1) 0.5 100 - -0.1 -250 -0.1 -20 75 - SOT23 (T1) -0.2 0.33 25 - -0.03 -500 -0.02 -2 50 - SOT23 (T1) -350 -0.5 0.33 30 200 -0.03 -500 -0.03 -3 50 - SOT23 (T1) FZT958 -400 -0.5 3 100 300 -0.5 -400 -0.5 -100 85 - SOT223 (T1) ZTX958 -400 -0.5 1.2 100 300 -0.5 -400 -0.5 -100 85 - E-Line (T1) FZT758 -400 -0.5 2 50 - -0.1 -500 0.1 -10 50 - SOT223 (T1) ZTX758 -400 -0.5 1 50 - -0.1 -500 -0.1 -10 50 - E-Line (T1) FZT558 -400 -0.2 2 100 300 -0.05 -500 -0.05 -6 50 - SOT223 (T1) ZXTP08400BFF -400 -0.2 1.5 100 300 -0.05 -125 -0.05 -5 70 - SOT23F (T1) 100 - -0.2 -190 -0.2 -40 FCX558 -400 -0.2 1 100 300 -0.05 -500 -0.05 -6 50 - SOT89 (T1) ZTX558 -400 -0.2 1 100 300 -0.05 -500 -0.05 -6 50 - E-Line (T1) FMMT558 -400 -0.15 0.5 100 300 -0.05 -500 -0.05 -6 50 - SOT23 (T1) FZT560 -500 -0.15 2 80 300 -0.05 -200 -0.02 -2 60 - SOT223 (T1) ZTX560 -500 -0.15 1 80 300 -0.05 -200 0.02 -2 60 - E-Line (T1) FMMT560 -500 -0.15 0.5 80 300 -0.05 -200 -0.02 -2 60 - SOT23 (T1) E C C C C B E E E Rounded face C C B B B CB E SOT223 (T1) SOT89 (T1) SOT23 (T1) SOT23F (T1) * *Indicative relative size 27 E-line (T1) NPN avalanche transistors Part number VCBO VCEO ICM PD IUSB hFE fT Package V V A W A @ VC V Min. @ IC mA MHz @ IB mA FMMT413 150 50 50 0.33 25 130 50 10 150 10 SOT23 (T1) FMMT415 260 100 60 0.33 25 250 25 10 40 10 SOT23 (T1) ZTX415 260 100 60 0.68 25 250 25 10 40 10 E-Line (T1) FMMT417 320 100 60 0.33 25 250 25 10 40 10 SOT23 (T1) fT Package NPN Darlington transistors Part number VCEO IC PD hFE VCE(sat) V A W Min. Max. @ IC A Max. mV @ IC A @ IB mA MHz FZTA14 30 1 2 5000 - 1 1600 1 1 170 SOT223 (T1) FMMTA13 40 0.3 0.33 10000 - 0.1 900 0.1 0.1 - SOT23 (T1) FMMTA14 40 0.3 0.33 20000 - 0.1 900 0.1 0.1 - SOT23 (T1) BCV47 60 0.5 0.33 2000 - 0.5 1000 0.1 0.1 170 SOT23 (T1) BCV49 60 0.5 1 10000 - 0.1 1000 0.1 0.1 170 SOT89 (T1) BCX38C 60 0.8 1 10000 - 0.5 1250 0.8 8 - E-Line (T1) FMMT38C 60 0.3 0.33 10000 - 0.5 1250 0.8 8 - SOT23 (T1) BST52 80 0.5 1 2000 - 0.5 1300 0.5 0.5 - SOT89 (T1) FZT603 80 2 2 2000 - 2 1000 1 1 150 SOT223 (T1) ZTX603 80 1 1 5000 - 0.5 1000 1 1 150 E-Line (T1) FMMT614 100 0.5 0.5 5000 - 0.5 1000 0.5 5 - SOT23 (T1) FMMT634 100 0.9 0.625 15000 - 1 960 1 5 140 SOT23 (T1) ZTX614 100 0.8 1 10000 - 0.5 1250 0.8 8 - E-Line (T1) ZXTN04120HFF 120 1 1.5 3000 - 0.5 1500 1 1 1000 - 2 1500 2 5 FCX605 120 1 1 2000 100000 1 1500 1 FZT605 120 1.5 2 2000 100000 1 1500 ZTX605 120 1 1 2000 100000 1 FZT600 140 2 2 2000 100000 FZT600B 140 2 2 10000 ZTX601 160 1 1 ZTX601B 160 1 1 120 SOT23F (T1) 1 150 SOT89 (T1) 1 1 150 SOT223 (T1) 1500 1 1 150 E-Line (T1) 0.5 1200 1 10 150 SOT223 (T1) 100000 0.5 1200 1 10 150 SOT223 (T1) 2000 100000 0.5 1200 1 10 150 E-Line (T1) 10000 100000 0.5 1200 1 10 150 E-Line (T1) PNP Darlington transistors Part number VCEO IC PD hFE VCE(sat) V A W Min. Max. @ IC A Max. mV @ IC A @ IB mA MHz FMMT734 -100 -0.8 0.625 15000 - -1 -970 -0.8 -5 140 SOT23 (T1) ZXTP05120HFF -120 -1 1.5 3000 - -0.5 -1500 -1 -1 1000 - -2 -1500 -2 -5 120 SOT23F (T1) FCX705 -120 -1 1 3000 30000 -1 -1300 -1 -1 160 SOT89 (T1) FZT705 -120 -2 2 3000 30000 -1 -1300 -1 -1 160 SOT223 (T1) ZTX705 -120 -1 1 3000 30000 -1 -1300 -1 -1 160 E-Line (T1) 28 fT Package 1.0 Bipolars transistors H-bridges Part number Polarity VCEO IC PD hFE VCE(sat) Package V A W Min. @ IC A Max. mV @ IC A @ IB mA ZHB6718 2 x NPN 2 x PNP 20 -20 2.5 -2.5 2 200 150 2 -2 0.15 -0.2 1 -1 10 -20 SM8 (T3) ZHB6790 2 x NPN 2 x PNP 40 -40 2 -2 2 150 150 2 -2 0.5 -0.45 1 -1 5 -10 SM8 (T3) ZHB6792 2 x NPN 2 x PNP 70 -70 1 -1 2 150 200 1 -1 0.5 -0.5 1 -1 10 -25 SM8 (T3) NPN/PNP combinations Part number Polarity VCEO IC ICM PD hFE VCE(sat) Package V A A W Min. @ IC A Max. mV @ IC A @ IB mA ZXTC2061E6 NPN PNP 12 -12 5 -3.5 12 -10 1.1 500 500 0.01 -0.01 40 -70 1 -1 100 -100 SOT23-6 (T2) ZXTDA1M832 NPN PNP 15 -12 4.5 -4 15 -12 1.5 200 180 3 -2.5 100 -140 1 -1 10 -10 DFN832 (T2) ZXTD6717E6 NPN PNP 15 -12 1.5 -1.25 5 -3 1.1 200 200 1 -0.5 200 -215 1 -1 10 -50 SOT23-6 (T2) ZXTC2062E6 NPN PNP 20 -20 4.5 -3.5 10 -10 1.1 300 300 0.01 -0.01 50 -65 1 -1 100 -100 SOT23-6 (T2) ZXTDB2M832 NPN PNP 20 -20 4.5 -3.5 12 -6 1.5 200 150 2 -2 150 -220 1 -1 10 -20 DFN832 (T2) ZDT6718 NPN PNP 20 -20 2 -1.5 6 -6 2.5 200 150 2 -2 200 -220 2.5 -1.5 50 -50 SM8 (T2) ZXTC2045E6 NPN PNP 30 -30 1.5 -1.5 5 -5 1.1 180 180 0.1 -0.1 375 -375 0.75 -0.75 15 -15 SOT23-6 (T2) ZXTD4591AM832 NPN PNP 40 -40 2 -1.5 3 -3 1.5 300 250 0.5 -0.5 300 -350 0.5 -0.5 50 -20 DFN832 (T2) ZDT6790 NPN PNP 45 -40 2 -2 6 -6 2.75 150 150 2 -2 500 -450 1 -1 5 -10 SM8 (T2) ZXTDC3M832 NPN PNP 50 -40 4 -3 6 -4 1.5 200 180 1 -1 100 -220 1 -1 50 -50 DFN832 (T2) ZXTC2063E6 NPN PNP 40 -40 3.5 -3 9 -9 1.1 300 300 0.01 -0.01 60 -90 1 -1 100 -100 SOT23-6 (T2) ZXTD4591E6 NPN PNP 60 -60 1 -1 2 -2 1.1 100 100 0.5 -0.5 250 -300 0.5 -0.5 50 -50 SOT23-6 (T2) ZXTDE4M832 NPN PNP 80 -70 3.5 -2.5 5 -3 1.5 110 175 1 -1 185 -220 1 -1 20 -100 DFN832 (T2) ZDT6753 NPN PNP 100 -100 2 -2 6 -6 2.75 100 100 0.5 -0.5 500 -500 2 -2 200 -200 SM8 (T2) 8 C2 B3 1 8 B4 7 C2 E2,E3 2 7 C3,C4 3 6 NPN 4 5 C1 B2 3 6 E1,E4 C1 B1 4 5 C1,C2 E2 1 B2 2 E1 PNP B1 SM8 (T2) E C E C C C B B SOT223 (T1) SM8 (T3) SOT89 (T1) * E E E1 C1 NPN 5 B2 B1 C C PNP B B C2 C2 C1 C1 7 3 2 PNP 4 E2 C2 6 NPN 1 E2 B2 E1 B1 Bottom View SOT23F (T1) SOT23-6 (T2) SOT23 (T1) * *Indicative relative size 29 Rounded face 8 DFN832 (T2) CB E E-line (T1) Dual NPN transistors Part number Polarity VCEO IC PD hFE VCE(sat) V A W Min. @ IC A ZXTDAM832 2 x NPN 15 4.5 1.5 200 3 ZDT1048 2 x NPN 17.5 5 2.75 250 5 ZXTDBM832 2 x NPN 20 4.5 1.5 200 2 ZXT12N20DX 2 x NPN 20 3.5 1.25 ZDT1049 2 x NPN 25 5 2.75 ZXT12N50DX 2 x NPN 50 3 1.25 ZXTD09N50DE6 2 x NPN 50 1 ZXTDCM832 2 x NPN 50 ZDT1053 2 x NPN ZDT694 ZXTD2075E6* Max. mV @ IC A Package @ IB mA 100 1 10 280 4.5 50 240 5 100 150 1 10 270 4.5 125 300 1 100 1 10 200 3.5 200 3.5 50 200 4 220 4 50 DFN832 (T1) SM8 (T1) DFN832 (T1) MSOP8 (T1) SM8 (T1) 300 1 120 1 10 150 3 250 3 50 1.1 300 1 270 1 50 SOT23-6 (T3) 4 1.5 200 1 100 1 50 DFN832 (T1) 75 5 2.75 300 1 440 5 250 SM8 (T1) 2 x NPN 120 0.5 2.75 400 0.2 500 0.4 5 SM8 (T1) 2 x NPN 300 0.2 1.1 40 0.03 200 0.02 2 SOT23-6 (T1) VCEO IC PD V A W Min. @ IC A 180 -2.5 MSOP8 (T1) * Advance information Dual PNP transistors Part number Polarity ZXTD1M832 2 x PNP -12 -4 1.5 ZXT12P12DX 2 x PNP -12 -3 1.25 ZXTD2M832 2 x PNP -20 -3.5 ZDT749 2 x PNP -25 ZXT12P40DX 2 x PNP ZDT751 ZDT795A hFE VCE(sat) Package Max. mV @ IC A @ IB mA -140 -1 -10 -300 -4 -150 300 -1 -85 -1 -20 200 -3 -270 -3 -30 1.5 150 -2 -2 2.75 75 -2 -40 -2 1.25 2 x PNP -60 -2 2 x PNP -140 -0.5 -220 -1 -20 -300 -3.5 -350 -500 -2 -200 DFN832 (T1) MSOP8 (T1) DFN832 (T1) SM8 (T1) 300 -1 -215 -1 -20 150 -2 -260 -2 -100 2.75 80 -1 -500 -2 -200 SM8 (T1) 2.75 250 -0.2 -300 -0.2 -5 SM8 (T1) 30 MSOP8 (T1) 1.0 Bipolars transistors Transistor and Schottky diode combinations Part number Polarity VCEO IC VR IF V A PD Transistor hFE ZX3CD1S1M832 ZX3CDBS1M832 ZX3CD2S1M832 ZX3CD3S1M832 RCE(sat) VCE(sat) Schottky diode W Min. @ IC A Typ. m Max. V @ IC A @ IB mA 300 -0.1 60 -0.14 -1 -10 PNP -12 -4 1.5 Diode 40 1.85 1.2 NPN 20 4.5 1.5 Diode 40 1.85 1.2 PNP -20 -3.5 1.5 Diode 40 1.85 1.2 PNP -40 -3 1.5 Diode 40 1.85 1.2 300 300 300 0.2 47 -0.1 0.15 64 -0.1 -0.22 104 -0.22 1 -1 -1 VF max V - 1 - - 0.5 1 -20 - - 0.5 1 -50 - - 0.5 1 C2 C2 C1 C1 E2 1 8 C2 B2 2 7 C2 E1 3 6 C1 B1 4 5 C1 SM8 (T1) B1 C1 E1 E2 E C2 B2 Cathode SOT23-6 (T3) B C N/C C1 C1 C2 C2 E1 B1 E2 B2 Anode * *Indicative relative size 31 6 7 8 DFN832 (T3) DFN832 (T3) DFN832 (T3) DFN832 (T3) K2 K2 C1 C1 5 6 D ode 4 3 2 1 E2 B2 E1 B1 MSOP8 (T1) SOT23-6 (T4) 5 @ IF A 0.5 10 Package 4 3 7 8 NPN / PNP 2 1 A2 N/C E1 B1 Bottom View Bottom View DFN832 (T1) DFN832 (T3) Gate drive transistors Low input current requirement Fast switching emitter-follower configuration No latch up SOT23-6 package No shoot through Optimised pin-out to ease board layout and minimize trace inductance Near zero quiescent and output leakage current Separate emitters for independent control of rise and fall time Part number ZXGD3001E6 ZXGD3002E6 ZXGD3003E6 ZXGD3004E6 VIN Max VCC Max V V 12 12 20 20 40 40 40 40 Isource Isink @ IIN = 10mA A 4.2 2.2 1.6 1.9 A 2.2 2.0 1.4 1.9 IsinkPK Max IIN Max A A 9 9 5 8 1.0 1.0 1.0 1.0 Gate Driver Switching Times (typ) @ td(rise) ns 1.3 tr ns 7.3 1.25 1.8 8.3 8.9 1.1 13.4 td(fall) ns 3 1.6 1.7 0.95 tf ns 11 CL = 1nF, RL = 1, VCC = 8V, VIN = 6V, RS = 25 SOT23-6 (T6) 10.8 CL = 1nF, RL = 1, VCC = 12V, VIN = 10V, RS = 25 SOT23-6 (T6) 8.9 CL = 1nF, RL = 1, VCC = 12V, VIN = 10V, RS = 25 SOT23-6 (T6) 12.4 CL = 1.5nF, RL = 0.1, VCC = 15V, VIN = 12.5V, RS = 25 SOT23-6 (T6) VS V CC VCC SOURCE IN1 IN2 GND SOURCE IN1 ZXGD3x Input SINK IN2 SOT23-6 (T6) SINK GND * *Indicative relative size 32 Package Condition 1.0 Bipolars transistors 33 Article Applications dictate bipolar or MOSFET power switch choices Section 1.1 RSENSE Bipolar transistors have continued to be developed to rival or exceed MOSFET performance in many applications. It's therefore important to review the characteristics and benefits of each technology to extract the best system performance. OUT AC Line Adapter I SNS CFLG VSNS COUT COMP/DIS GND CIN The first characteristic that designers often consider is on-state resistance for a given breakdown voltage. Figure 1 shows the rapid advances made by Zetex in recent years. Furthermore, bipolar transistors benefit from conductivity modulation, an effect that increases the advantage that the bipolar transistors hold over MOSFETs as breakdown voltages increase. T SENSE RCOMP CCOMP Figure 2. A typical linear charger circuit Bipolars are slower switching than MOSFETs when operated as a saturated switch, provided the MOSFET has a sufficiently highcurrent drive. Ironically perhaps, bipolars are often employed as MOSFET pre-drivers, exploiting their high-current capabilities and fast switching speed when operating in the linear region (see Application example 2). Also, don't forget that bipolar transistors block voltage in two directions, as specified by their BVEBO or BVECO characteristic which can eliminate the need for a series diode and its attendant conduction losses. (See Application example 1.) How resistance changes with temperature affects the current capability of a power switch. The rise in bipolar RCE(sat) is generally half that of a MOSFET's equivalent RDS(on) leading to cooler running and higher continuous currents. By understanding the relative strengths and weaknesses of each technology the performance-cost relationship can be maximized. A summary of the key parametric differences of the competing technologies appears in the table opposite. Drive requirements are arguably where bipolars and MOSFETs differ most and care must be taken to account for the bipolar's base drive loss in power dissipation calculations. However, bipolars are fully turned on at around one volt, whereas the achievable RDS(on) of a MOSFET may be limited in low voltage applications by the available drive voltage over threshold. Specific Product Resistance (mOhm.mm2) VCC Application example 1: Linear mode battery charging Linear chargers are simple, small, and emit no EMI making them suitable for low noise environments. They use an external pass element to drop the voltage from the input supply to the battery voltage thus power dissipation is high. A typical linear charger circuit is shown in Figure 2. 150 130 Li-Ion cell R THM Power losses in the transistor are dominated by the collector-emitter losses: PD(CE) = ICHG x (VIN - VDCD - VSENSE) (W) where VSENSE = ICHG x RSENSE (V) and the selection criteria usually include current capability, gain, cost, and package dissipation. Bipolar PNP transistors are advantageous in this application because of their bidirectional blocking capability, whereas a MOSFET requires a series Schottky diode to prevent current flowing from the battery to the supply, through its body diode. Application example 2: MOSFET gate drivers High current low RDS(on) MOSFETs can exhibit gate capacitances that require amps of drive current. For example, a typical 100V MOSFET with a gate charge of 50nC, requires 2.5 amps to switch in 20ns. Bipolar transistors are ideally suited as gate drivers because they feature fast switching in linear mode, high pulsecurrent capability, and high current density - hence small size and cost. One of the most popular and costeffective drive circuits is a bipolar, non-inverting totem-pole driver (see Figure 3) V DRIVE V CC 110 90 RL 70 Q1 50 30 R GATE Q2 10 90 19 95 19 Year 00 20 05 20 Figure 1. Specific on-resistance (20V devices) NPN Figure 3. Totem-pole driver stage for power MOSFET PNP 34 1.0 Bipolars transistors Characteristic Bipolar transistor MOSFET `On' resistance Excellent - down to half that of the best MOSFET, depending on drive current available. Good at full enhancement Moderate at low gate drive Blocking voltage Bi-directional blocking capability. BVCES , BVCEV or BVCBO may be appropriate for some applications. Mono-directional, may require a series Schottky diode or back-to-back MOSFET pair in some applications. Pulse current High Moderate Drive voltage Less than 1V 1.8V to 10V, depending on the optimization Temperature stability Excellent: VBE: approx. 2mV per C RCE(sat) approx. 0.4% per C RDS(on) approx. 0.6% per C Drive power Moderate High frequency: moderate Speed Linear switch: very fast Saturated switch: moderate Fast ESD sensitivity Very rugged Sensitive Price per area of silicon Comparable Comparable C1 The important power switch selection characteristics are voltage rating, on-state resistance, gain and cost. - Supply The circuit makes use of the reverse BVEBO rating and allows the use of the BVCEV, or BVCES characteristic, thus allowing a lower BVCEO rated device with a lower on-state resistance than its MOSFET equivalent. The backlight module of an LCD display requires high efficiency operation and is sensitive to cost. There are two basic circuit topologies for driving the CCFL lamps: a) Resonant converter, using a bipolar transistor half-bridge, or b) IC controller plus MOSFET half-bridge. Resonant converter circuits are cheaper than IC controller/ MOSFET solutions and, with careful optimization, efficiencies of greater than 90% can be achieved. A simplified circuit is shown in Figure 4: LCD Backlight CCFL +V Q2 0V Figure 4. Resonant converter for LCD backlight R6 R4 D3 R5 Q1 PD(pnp) = (VG/2 x Q x f) + (VBE x IB x t x f) Application example 3: Resonant converter for CCFL backlight applications 1N4004 D1 1N4148 PD(npn) = (( VDRIVE - (VG/2)) x Q x f) + (VBE x IB x t x f) With both devices dissipating just 256mW, small surface mount bipolar transistors are ideal, preferably co-packaged as complementary dual devices. D2 + Supply If the MOSFET is required to switch at 1MHz from a 5V drive the power dissipation in each driver transistor can be estimated as: Application example 4: DC brushless motor driving Brushless DC motors are popular due to their high efficiency, high torque, longer operating life, reduced noise and lower EMI. Commutation is effected by switching the current in the windings of the stator in the required sequence to produce a rotating magnetic field synchronous with the rotor. Single phase, 2-phase or 3-phase motors, require respectively 1, 2 or 3 stator windings. Speed control is usually achieved by PWM. In 2-phase circuits each winding is energized for half of the time and is switched by a single drive transistor. In single-phase bridge circuits (Figure 5) the winding current is synchronously commutated by switching diagonal Q1 pairs of transistors, therefore the single winding results in a cheaper, lighter motor but the drive circuitry is more complex. In 3-phase bridge circuits a third leg is added to the bridge which means that both motor and drive costs are higher. 35 VCC V+ OP H+ Ph1Lo R1 H- Ph2Lo R2 ThRef Ph2Hi R3 SPD ZXBM1004 W1 Q3 Q4 Ph1Hi SMIN FG CPWM RD CLCK D4 Q2 Gnd Figure 5. Single-phase fan motor circuit Common to all circuit types, the requirements of the switch are to be directly driven by the control circuit; to minimize the voltage drop in the power switch in order to maximize rotor speed and circuit efficiency; to survive stall currents and inductive transients during switching. In low voltage, low current applications e.g. PC fans, where IC motor controllers are required to operate on 3V rails, there are opportunities to make effective use of a bipolar transistor's high current gain hold-up and low VCE(sat) at low drive voltages where MOSFETs struggle to be cost effective. The fan motor circuit in Figure 5 is a hybrid bridge circuit where PNP bipolar transistors are used for the high side pair, and N-Channel MOSFETs are used for the low side PWM driven pair. This combination takes advantage of the PNP transistor's low RCE(sat) which helps achieve high rotor speed. To read this article in full, go to www.zetex.com/thinkbipolar Diodes Section 2.0 Schottky diodes The ZHCS series of Schottky diodes provides low-loss rectification at ampere-level currents from 40 to 60V in a range of packages. Specifications that characterize each device's maximum forward voltage at its maximum operating current ease worst-case design calculations. The ZLLS series extends this classleading performance to minimize reverse leakage at elevated temperatures. These 40V devices also offer the ability to rectify more than 2A from within a SOT23 outline. Varactor (tuner) diodes Designed around two specific C-V curves, the portfolio comprises a range of capacitance variants in a selection of miniature surface mount packages. Developed for high Q at low voltage and with inherent low phase noise, the devices are ideal for various tuning circuits found in such products as DAB radios and crystal oscillators. Power rectifier diodes The BYY and BYP series of rectifier diodes are available in press-fit packages and cover a current range up to 50 amps and voltage up to 1500 volts. Power zener diodes The BZP and BZV series offer zener voltages of 22, 33 and 39V and currents up to 50A and are housed in press-fit packages. The press-fit package is available with different package modifications (connectors, wires, flexible cable). 36 Rectifier stacks Rectifier stacks are manufactured based on the power rectifier diodes of the BYY and BYP series. Their optimized design means they are not sensitive to overload and high temperature. Rectifier stacks are available for self, forced air and oil cooling methods. Back-off diodes Again based on the BYY and BYP series of power rectifier diodes these offer a drop voltage of 0.83V per diode. 2.0 Diodes Contents Schottky diodes Schottky rectifier diodes 38 Dual Schottky diodes 38 Multiple Schottky diodes 39 Varactor (tuner) diodes 12 volt hyperabrupt varactor diodes 39 25 volt hyperabrupt varactor diodes 40 Power diodes Rectifier diodes 40 Power zener diodes 40 Rectifier stacks 40 Back-off diodes 40 37 Schottky diodes Part number VF CD @ f = 1MHz VR Max IF IFSM IR trr PD Max. V Max. mA Max. A Max. mV @ IF mA Max. A @ VR V Typ. pF ZLLS410 10 570 17 380 100 5 8 BAT54 30 200 0.6 500 30 4 ZLLS2000 40 2200 36 540 2000 ZHCS2000 40 2000 20 500 ZLLS1000 40 1160 22 ZHCS1000 40 1000 BAT1000 40 ZHCS750 Package @ VR V ns W 26 10 3 0.33 SOD323 (D1) 25 7.5 1 5 0.33 SOT23 (D1) 40 30 65 30 6 1.1 SOT23-6 (D1) 2000 300 30 50 25 5.5 1.1 SOT23-6 (D1) 560 1000 20 30 26 30 4 0.625 SOT23 (D1) 12 425 1000 100 30 25 25 12 0.5 SOT23 (D1) 1000 12 425 1000 100 30 25 25 12 0.35 SOT23 (D1) 40 750 12 490 750 100 30 25 25 12 0.5 SOT23 (D1) BAT750 40 750 12 490 750 100 30 25 25 12 0.35 SOT23 (D1) ZLLS500 40 700 13 530 500 10 30 16 30 3 0.5 SOT23 (D1) ZHCS500 40 500 6.75 550 500 40 30 20 25 10 0.33 SOT23 (D1) ZLLS400 40 520 12 500 400 10 30 15 30 2.46 0.33 SOD323 (D1) ZHCS400 40 400 6.75 500 400 40 30 20 25 10 0.25 SOD323 (D1) ZLLS350 40 380 6 1000 275 4 30 3.5 30 1 0.36 SOD523 (D1) ZHCS350 40 350 4.2 810 350 12 30 3.3 25 1.6 0.33 SOD523 (D1) ZHCS1006 60 900 12 600 1000 100 45 17 25 12 0.5 SOT23 (D1) ZHCS756 60 750 12 610 750 100 45 17 25 12 0.5 SOT23 (D1) ZHCS506 60 500 5.5 630 500 40 45 10 25 10 0.33 SOT23 (D1) CD @ f = 1MHz trr PD Package Dual Schottky diodes Part number VR IF IFSM VF IR Max. V Max. mA Max. A Max. mV @ IF mA Max. A @ VR V Typ. pF @ VR V ns W BAT54A 30 200 0.6 500 30 4 25 10 1 5 0.33 SOT23 (D2) BAT54C 30 200 0.6 500 30 4 25 10 1 5 0.33 SOT23 (D3) BAT54S 30 200 0.6 500 30 4 25 10 1 5 0.33 SOT23 (D ZXSD500E6* 40 800 13 550 500 10 30 16 30 3 1.1 SOT23-6 (D2) ZXSDS2M832 60 1650 16.8 600 1000 100 45 17 25 12 1.2 DFN832 (D1) *Advance information n/c ~ n/c ~ - + - + - ~ - + A C n/c ~ SM8 (D2) SM8 (D3) C1 N/C A1,A2 C SOT23 (D1) C2 SOT23 (D2) * *Indicative relative size 38 A1,C2 C1,C2 A C1 A1 A2 A2 SOT23 (D3) SOT23 (D4) Multiple Schottky diodes Part number IF (av) IFSM Max. V Max. A Max. A VF Max. mV CD @ f = 1MHz IR @ IF mA trr (typ) PD Max. A @ VR V Typ. pF @ VR V ns W Package 2.0 Diodes VRMS Schottky bridge rectifier with additional free wheeling diode ZXSBMR16PT8 13.2 0.4 13 550 500 10 30 16 30 3 1.0 SM8 (D2) 1.0 5 560 1000 20 30 26 30 4 2.0 SM8 (D3) Schottky bridge rectifier ZXSB1000QT8* 17 *Advance information ZXSBMR16PT8 ZXSB1000QT8 DC OUT N/C AC in GND DC out GND AC in A AC IN C + C n/c ~ - + - + n/c ~ SM8 (D2) ~ ~ SM8 (D3) A - GND 12 volt hyperabrupt varactor diodes Part number Capacitance VR = 1V, f = 1MHz Capacitance VR = 2.5V, f = 1MHz Capacitance VR = 4V, f = 1MHz Q VR = 4V, f = 50MHz Package Min. pF Min. pF Max. pF Min. pF Min. ZC930 8.7 4.3 5.5 2.9 200 SOT23 (D1) ZMV930 8.7 4.3 5.5 2.9 200 SOD323 (D1) ZC931 13.5 6.5 7.8 4 300 SOT23 (D1) ZMV931 13.5 6.5 7.8 4 300 SOD323 (D1) ZC932 17 8.5 10.5 5.5 200 SOT23 (D1) ZMV932 17 8.5 10.5 5.5 200 SOD323 (D1) ZMV933 42 18 27 12 150 SOD323 (D1) ZMV933A 42 20.25 24.75 12 150 SOD323 (D1) ZC933 42 18 27 12 150 SOT23 (D1) ZC933A 42 20.25 24.75 12 150 SOT23 (D1) ZC934 95 40 65 25 80 SOT23 (D1) ZC934A 95 47.25 57.75 25 80 SOT23 (D1) ZMV934 95 40 65 25 80 SOD323 (D1) ZMV934A 95 47.25 57.75 25 80 SOD323 (D1) Cathode mark C2 C2 C1 C1 C C C C A A SOT23-6 (D1) A1 C1 N/C N/C A1 SOT23-6 (D2) 6 7 8 4 3 2 1 C2 C1,C2 A2 C2 5 A2 SOT323 (D1) C1 A2 A1 DFN832 (D1) * *Indicative relative size 39 + BD - A C Partmark as example only for orientation SOD323 (D1) SOD523 (D1) 25 volt hyperabrupt varactor diodes Part number Capacitance VR = 2V, f = 1MHz Capacitance C2/C20, f = 1MHz Q VR = 3V, f = 50MHz Max. Package Min. pF Max. pF Min. ZC831B 14.25 15.75 4.5 6 300 SOT23 (D1) ZC832B 20.9 23.1 5 6.5 200 SOT23 (D1) ZC833B 31.35 34.65 5 6.5 200 SOT23 (D1) ZC834B 44.65 49.35 5 6.5 200 SOT23 (D1) ZC835B 64.6 71.4 5 6.5 100 SOT23 (D1) ZC836B 95 105 5 6.5 100 SOT23 (D1) ZMV832B 20.9 23.1 5 6.5 200 SOD323 (D1) ZMV833B 31.35 34.65 5 6.5 200 SOD323 (D1) Min. Rectifier diodes Part number VRRM IF(AV) IFSM VF Max. V Max. A Max. A Max. V IR@VRRM @ If A Package Max. mA BYY57/58 75...1500 35 600 1.15 35 0.25 Hermetic press-fit BYY57A/58A 75...800 50 900 1.15 50 0.25 Hermetic press-fit BYP53/54 75...800 25 425 1.1 25 0.25 Press-fit with plastic cover BYP57/58 75...800 35 600 1.1 35 0.25 Press-fit with plastic cover BYY53/54 75...1500 25 425 1.1 25 0.25 Hermetic press-fit Power zener diodes Part number VZ IF(AV) IFSM VF @ IZ Package Typ V Max. A Max. A Max. V @ If A Max. A BZP61/62 22 / 27 / 33 / 39 35 600 1.1 35 5.5 / 4.5 / 3.8 / 3.3 Press-fit with plastic cover BZP63/64 22 / 27 / 33 / 39 50 700 1.1 35 6.3 / 5.2 / 4.3 / 3.8 Press-fit with plastic cover BZV61/62 22 / 27 / 33 / 39 35 600 1.1 35 7.2 / 5.8 / 4.8 / 4.2 Hermetic press-fit BZV63/64 22 / 27 / 33 / 39 50 700 1.1 35 8.1 / 6.6 / 5.5 / 4.8 Hermetic press-fit Rectifier stacks Part number VIN Max. V Rectifier stacks Id(AV) Max. A 1000 VOUT Max. V 2400 1300 Package 100mm 100mm 100mm 100mm x x x x 125mm cooling plate 250mm cooling plate 375mm cooling plate 500mm cooling plate Back-off diodes Part number Drop voltage Max. V Back-off diodes 0.8...33.2 IFAVM Max. A 25...100(1) Package 100mm 100mm 100mm 100mm (1) Higher current values are possible with parallel connecting N/C + C A SOT23 (D1) BD - Partmark as example only for orientation SOD323 (D1) * *Indicative relative size 40 x x x x 125mm cooling plate 250mm cooling plate 375mm cooling plate 500mm cooling plate MOSFETs Section 3.0 The diverse range of high efficiency power and signal management devices featured within this section includes parts derived from both planar and trench technology with drive capability down to 1.8V, avalanche rated devices and selfprotected IntelliFETTM parts. By utilizing the strengths of each, Zetex can provide optimized MOSFET performance appropriately tailored to specific application areas including DC-DC conversion, motor drive, audio Class D output stages, backlight inverters, active clamping, power supply start up and power line disconnect. 3.0 20V devices N-channel 42 P-channel 42 Complementary 43 30 to 50V devices N-channel 43 P-channel 44 Complementary 44 H-bridge 44 60 to 70V devices N-channel 45 P-channel 46 Complementary 46 H-bridge 46 Self-protected IntelliFETTM 47 80 to 100V devices N-channel 48 P-channel 49 H-bridge 49 150 to 450V devices N-channel 49 P-channel 50 41 MOSFETs Zetex' MOSFET portfolio is comprised of N and P-channel parts, with a wide variety of voltages up to 450V for use in a broad range of end products from portable equipment to power supplies, covering automotive, consumer and industrial markets. Contents N-channel 20V Polarity Part number BVDSS ID PD V A W 2xN 20 7.7 2.1 0.04 - ZXMN2A02X8 N 20 7.6 1.8 0.04 ZXM64N02X N 20 5.4 1.8 ZXMN2A03E6 N 20 4.6 1.7 ZXMN2B03E6 N 20 4.3 1.1 ZXMN2A14F N 20 4.1 1 ZXMN2F30FH N 20 3.6 1 ZXMN2B14FH N 20 3.5 ZXMN2F34FH N 20 ZXMN2F34MA N ZXM62N02E6 ZXMN2A04DN8 RDS(on) max. @ VGS=1.8V Ciss typ.@ Qg typ.@ VDS=10V pF VGS=4.5V nC 0.025 1880 40.5 SO8 (M2) - 0.02 2050 18.9 MSOP8 (M1) - 0.05 0.04 1100 12.5 MSOP8 (M1) 0.1 - 0.055 837 8.2 SOT23-6 (M1) 0.04 1160 1.5 SOT23-6 (M1) VGS=2.5V 0.075 VGS=2.7V VGS=4.5V 0.055 Package 0.11 - 0.06 544 6.6 SOT23 (M1) - 0.065 - 0.045 330 5.8 SOT23 (M1) 1 0.1 0.075 0.055 872 11 SOT23 (M1) 3.0 1 - 0.120 - 0.060 641 20 5.1 2.2 - 0.12 - 0.06 277 2.8 N 20 3.2 1.7 - 0.125 0.1 480 5 SOT23-6 (M1) ZXMN2A01E6 N 20 3 1.7 0.225 - 0.12 299 3.1 SOT23-6 (M1) ZXMN2AM832 2xN 20 3 1.5 0.225 - 0.12 310 3.1 DFN832 (M1) ZXMD63N02X 2xN 20 2.4 1.25 - 0.15 0.13 360 4.8 MSOP8 (M2) ZXMN20866DE6 2xN 20 1.8 1.5 0.5 0.4 - 0.3 230 3.0 SOT23 (M2) ZXMN2B01F 2xN 20 1.8 1.5 - 0.15 0.1 230 3 SOT23 (M2) ZXMN2A01F N 20 2 0.8 0.225 - 0.12 310 3 SOT23 (M1) ZXM61N02F N 20 1.7 0.8 - 0.24 0.18 170 2.6 SOT23 (M1) BVDSS ID PD V A W VGS = -2.5V VGS = -2.7V SOT23 (M1) DFN322 P-channel 20V Part number Polarity RDS(on) max. @ Ciss typ. @ Qg typ. @ VGS = -4.5V VDS = -10V pF VGS = -4.5V nC Package ZXM64P02X P -20 -3.5 1.8 - 0.13 0.09 950 5 MSOP8 (M1) ZXM62P02E6 P -20 -2.3 1.7 - 0.375 0.2 340 4.6 SOT23-6 (M1) ZXMD63P02X 2xP -20 -1.7 1.25 - 0.4 0.27 300 4.1 MSOP8 (M2) P -20 -0.9 0.8 - 0.9 0.6 160 2.7 SOT23 (M1) ZXM61P02F S D S D S1 D1 S D G1 D1 S D S2 D2 G D G2 D2 S D G SO8 (M1) SOT223 (M1) D D D D S S S G D G SOT23 (M1) SO8 (M2) MSOP8 (M1) * G D1 D1 D2 D2 S1 G1 S2 G2 D D G1 D1 D D S2 S1 G S G2 D2 D2 D1 G2 S2 G1 S1 Bottom V ew MSOP8 (M2) SOT23-6 (M1) SOT23-6 DFN832 (M2) * D S D2 D2 D1 D1 (M1) D Bottom V ew DFN322 TO220 (M1) G *Indicative relative size 42 D S Complementary 20V Polarity Part number ZXMD63C02X N+P BVDSS ID PD RDS(on) max. @ V A W 20 -20 2.4 -1.7 1.25 Ciss typ. @ Qg typ. @ VGS = 2.7V VGS = 4.5V VDS = 10V pF VGS = 4.5V nC 0.15 0.4 0.13 0.27 360 300 4.8 4.1 Package MSOP8 (M3) 3.0 Part number Polarity BVDSS N PD A W RDS(on) max. @ Ciss typ.@ Qg typ.@ Qg typ.@ Package VGS=2.5V VGS=4.5V VGS=5V VGS=10V VDS=15V pF VGS=4.5V nC VGS=10V nC 30 18.4 10.1 - 0.03 - 0.02 1890 - 36.8 DPAK (M1) V ZXMN3A04K ID ZXMN3A04DN8 2xN 30 8.5 2.1 - 0.03 - 0.02 1890 36.8 - SO8 (M2) ZXMN3F31DN8 2xN 30 7.0 2.1 - 0.046 - 0.024 742 - 16.4 SO8 (M2) ZXMN3F318DN8* 2 x N 30 7.0 6.0 2.1 - 0.046 0.055 - 0.024 0.035 742 - - 16.4 8.8 SO8 (M2) ZXMN3A02X8 N 30 6.7 1.8 - 0.035 - 0.025 1400 - 26.8 MSOP8 (M1) ZXMN3A06DN8 2xN 30 6.2 2.1 - 0.05 - 0.035 750 - 17.5 SO8 (M2) ZXMN3G32DN8 2xN 30 6.0 2.1 - 0.042 - 0.028 740 - 6.5 SO8 (M2) ZXM62N03G N 30 4.7 3.9 - 0.15 - 0.11 380 - 9.6 SOT223 (M1) ZXMN3A03E6 N 30 4.6 1.7 - 0.065 - 0.05 600 - 12.6 SOT23-6 (M1) ZXMN3F30FH N 30 4.0 1 - 0.065 - 0.047 305 - 9.1 SOT23 (M1) ZXMN3A14F N 30 3.9 1 - 0.095 - 0.065 448 - 8.6 SOT23 (M1) ZXMN3B14F N 30 3.5 1 0.14 0.08 - - 568 - 6.7 SOT23 (M1) ZXMN3A01E6 N 30 3 1.7 - 0.18 - 0.12 190 - 3.9 SOT23-6 (M1) ZXMN3AM832 2xN 30 3 1.5 - 0.18 - 0.12 190 - 3.9 DFN832 (M1) ZXMD63N03X 2xN 30 2.3 1.25 - 0.2 - 0.135 300 - 6.1 MSOP8 (M2) ZXMN3A01F N 30 2 0.625 - 0.18 - 0.12 190 - 3.9 SOT23 (M1) ZXMN3B01F N 30 2 0.625 0.24 0.15 - - 258 - 2.9 SOT23 (M1) ZXM61N03F N 30 1.4 0.625 - 0.3 - 0.22 160 - 3.2 SOT23 (M1) ZXM64N035L3 N 35 13 20 - 0.07 - 0.06 970 - 22 TO220 (M1) ZXMN4A06K N 40 10.9 9.5 - 0.075 - 0.05 810 - 17.1 DPAK (M1) ZXMN4A06G N 40 3.9 - 0.075 - 0.05 810 - 18.2 SOT223 (M1) BSS138 N 50 0.2 0.36 - - 3.5 - 35 - - SOT23 (M1) 7 *Advance information 43 MOSFETs N-channel from 30 to 50V P-channel from 30 to 50V Part number Polarity BVDSS ID PD RDS(on) max. @ V A W VGS = -4.5V VGS = -5V Ciss typ. @ Qg typ. @ VGS = -10V VDS = -15V pF VGS = -10V nC Package ZXMP3G35N8* P -30 -14.0 2.5 0.018 - 0.0125 3625 55.0 SO8 (M1) ZXMP3F36N8* P -30 -10.0 2.5 0.028 - 0.020 2530 41.0 SO8 (M1) ZXMP3A16G P -30 -7.5 2 0.07 - 0.045 970 24.9 SOT223 (M1) 2xP -30 -7.1 2.1 0.041 - 0.025 1550 31.0 SO8 (M2) P -30 -6.7 2.5 0.07 - 0.04 970 24.9 SO8 (M1) ZXMP3A16DN8 2xP -30 -5.5 2.1 0.07 - 0.045 970 24.9 SO8 (M2) ZXMP3A17DN8 2xP -30 -4.4 2.1 0.11 - 0.07 630 15.8 SO8 (M2 ) ZXM62P03G P -30 -4 3.9 0.23 - 0.15 330 10.2 SOT223 (M1) ZXMP3A17E6 P -30 -4 1.7 0.11 - 0.07 630 15.8 SOT23-6 (M1) ZXM64P03X P -30 -3.8 1.8 0.1 - 0.075 875 37 MSOP8 (M1) ZXMP3F30FH* P -30 -3.0 1 0.130 - 0.078 565 8.8 SOT23 (M1) ZXM62P03E6 P -30 -2.6 1.7 0.23 - 0.15 350 8 SOT23-6 (M1 ZXMD63P03X 2xP -30 -2 1.25 0.27 - 0.185 280 5.4 MSOP8 (M2) ZXMP3A13F P -30 -1.6 0.8 0.33 - 0.21 204 5.2 SOT23 (M1) ZXM61P03F P -30 1 0.8 0.55 - 0.35 145 3.7 SOT23 (M1) ZXM64P035L3 P -35 -12 20 0.105 - 0.075 875 37 TO220 (M1) ZXMP4A16K P -40 -9.9 9.5 0.1 - 0.06 1000 29.6 DPAK (M1) ZXMP4A16G P -40 -6.4 3.9 0.1 - 0.06 1010 26.1 SOT223 (M1) BS250P P -45 -0.23 0.7 - - 14 60 1.6 E-Line (M1) BS250F P -45 -0.09 0.33 - - 14 30 0.75 SOT23 (M1) ZVP4105A P -50 -0.18 0.625 - 10 - - - E-Line (M1) BSS84 P -50 -0.13 0.36 - 10 - - - SOT23 (M1) ZXMP3F37DN8* ZXMP3A16N8 * Advance information Complementary 30 to 40V Part number Polarity BVDSS ID PD V A W RDS(on) max. @ Ciss typ. @ Qg typ. @ VGS = 4.5V VGS = 10V VDS = 15V pF VGS = 10V nC Package ZXMC3F31DN8* N+P 30 -30 7.0 -4.5 2.1 0.046 0.080 0.024 0.046 742 820 16.4 15.2 SO8 (M3) ZXMC3A17DN8 N+P 30 -30 5.4 -4.4 2.1 0.065 0.11 0.05 0.07 600 630 12.2 15.8 SO8 (M3) ZXMC3AM832 N+P 30 -30 3.7 -2.7 1.5 0.18 0.33 0.12 0.21 190 204 3.9 5.2 DFN832 (M2) ZXMD63C03X N+P 30 -30 2.3 -2 1.25 0.2 0.27 0.135 0.185 300 280 6.1 5.4 MSOP8 (M3) ZXMC4A16DN8 N+P 40 -40 5.2 -4.7 2.1 0.075 0.1 0.05 0.06 800 1010 17 26 SO8 (M3) BVDSS ID PD Ciss typ. @ Qg typ. @ Package V A W 30 -30 3.1 -2.3 1.7 * Advance information H-bridge 30V Part number ZXMHC3A01T8 Polarity 2xN 2xP RDS(on) max. @ VGS = 4.5V VGS = 10V VDS = 15V pF VGS = 10V nC 0.18 0.33 0.12 0.21 190 204 3.9 5.2 44 SM8 (M1) N-channel from 60 to 70V Part number Polarity BVDSS ID PD RDS(on) max. @ VGS =4.5V A W VGS = 5V V Ciss typ.@ Qg typ.@ VGS = 10V VDS = 30V pF VGS = 10V nC Package ZXMN6A09K N 60 11.2 10.1 0.06 - 0.04 1426 29 DPAK (M1) ZXMN6A25K N 60 7 4.2 0.07 - 0.05 1063 20.4 DPAK (M1) ZXMN6A09G N 60 5.1 3.8 0.06 - 0.04 1410 24 ZXMN6A09DN8 2xN 60 5.1 2.1 0.06 - 0.04 1410 24 SO8 (M2) ZXMN6A25N8* N 60 5.7 2.5 0.07 - 0.05 1063 20.4 SO8 (M1) ZXMN6A25G SOT223 (M1) 3.0 60 4.8 2 0.07 - 0.05 1063 20.4 SOT223 60 4.7 2.1 0.07 - 0.05 1063 20.4 SO8 (M2) ZXMN6A08G N 60 3.8 3.9 0.15 - 0.08 470 5.8 SOT223 (M1) ZXMN6A11G N 60 3.8 3.9 0.18 - 0.12 330 5.7 SOT223 (M1) ZXMN6A11Z N 60 3.2 1.5 0.18 - 0.12 330 5.7 SOT89 (M1) ZXMN6A08E6 N 60 3.1 1.7 0.15 - 0.08 459 5.8 SOT23-6 (M1) ZXMN6A11DN8 2xN 60 2.7 2.1 0.18 20.4 0.12 330 5.7 SO8 (M2) ZXMN6A07Z N 60 2.2 1.5 0.35 - 0.25 166 3.2 SOT89 (M1) ZVN4306G N 60 2.1 3 - 0.45 0.33 220 5.2 SOT223 (M1) ZVN4306GV* N 60 2.1 3 - 0.45 0.33 220 5.2 SOT223 (M1) ZXMN6A07F N 60 1.2 0.8 0.35 - 0.25 166 3.2 SOT23 (M1) ZVN4306A N 60 1.1 1.1 - 0.45 0.33 220 5.2 E-Line (M1) N 60 1.1 1.1 - 0.45 0.33 220 5.2 E-Line (M1) N 60 1 2 - 1.5 1 70 2.4 SOT223 (M1) ZVN4206GV N 60 1 2 - 1.5 1 70 2.4 SOT223 (M1) ZVN2106G N 60 0.71 2 - - 2 50 1.6 SOT223 (M1) ZVN4206A N 60 0.6 0.7 - 1.5 1 70 2.4 E-Line (M1) ZVN4206AV N 60 0.6 0.7 - 1.5 1 70 2.4 E-Line (M1) ZVN2106A N 60 0.45 0.7 - - 2 50 1.6 E-Line (M1) VN10LP N 60 0.27 0.625 - 7.5 5 30 0.95 E-Line (M1) ZVN3306A N 60 0.27 0.625 - - 5 30 0.95 E-Line (M1) ZVN4106F N 60 0.2 0.33 - 5 2.5 27 1 SOT23 (M1) ZVN3306F N 60 0.15 0.33 - - 5 30 0.95 SOT23 (M1) 0.115 0.33 ZVN4306AV ZVN4206G 2N7002 N 60 - - 3.75 27 1 SOT23 (M1) ZXMN7A11K N 70 6.1 8.5 0.19 - 0.13 300 7.4 DPAK (M1) ZXMN7A11G N 70 3.8 3.9 0.19 - 0.13 300 7.4 SOT223 (M1) Avalanche rated product *Advance information D D3,D4 G2 S1,S4 D S D S1 D1 S1 S D G1 D1 G1 S D S2 D2 S2 N D1 G S D1 D D D D1,D2 G1 D G S G4 G3 S2,S3 D2 P D2 G2 D G G D2 G2 S DPAK (M1) SM8 (M1) SOT223 (M1) SO8 (M1) SO8 (M2) SO8 (M3) SOT89 (M1) * D D2 D2 D1 D1 D D D D S S S G D1 D1 D2 D2 S1 G1 S2 G2 S1 G1 S2 G2 N P D1 D1 D2 D2 D D D D D 5 MSOP8 (M1) MSOP8 (M2) MSOP8 (M3) D2 S SOT23-6 (M1) G SOT23 (M1) 6 PMOS 4 G Rounded face S 3 7 8 NMOS 2 D1 1 G2 S2 G1 S1 Bottom view DFN832 (M2) TO220 (M1) DG S E-line (M1) * G *Indicative relative size 45 D S MOSFETs N 2xN ZXMN6A25DN8 (M1) P-channel from 60 to 70V Part number Polarity BVDSS ID PD RDS(on) max. @ VGS = -4.5V V A W Ciss typ.@ Qg typ.@ VGS = -10V VDS = -30V pF VGS = -10V nC Package ZXMP6A18K P -60 -10.4 10.1 0.08 0.055 1580 44 DPAK (M1) ZXMP6A16K P -60 -5.4 4.24 0.13 0.085 1021 24.2 DPAK (M1) 2xP -60 -4.8 2.1 0.08 0.055 1580 44 SO8 (M2) ZXMP6A18DN8 ZXMP6A17G P -60 -4.1 3.9 0.19 0.125 637 17.7 SOT223 (M1) ZXMP6A16DN8 2xP -60 -3.9 2.1 0.125 0.085 1021 24.2 SO8 (M2) ZXMP6A17DN8 2xP -60 -3.2 2.1 0.19 0.125 637 17.7 SO8 (M2) ZXMP6A17E6 P -60 -3 1.7 0.19 0.125 637 17.7 SOT23-6 (M1) ZXMP6A13G P -60 -2.3 3.9 0.595 0.39 233 5.1 SOT223 (M1) ZXMP6A13F P -60 -1.1 0.8 0.6 0.4 233 5.1 SOT23 (M1) ZVP2106G P -60 -0.45 2 - 5 55 1.7 SOT223 (M1) ZVP2106A P -60 -0.28 0.7 - 5 55 1.7 E-Line (M1) ZVP3306A P -60 -0.16 0.625 - 14 27 0.9 E-Line (M1) ZVP3306F P -60 -0.09 0.33 - 14 27 0.9 SOT23 (M1) ZXMP7A17K P -70 -5.7 9.25 0.25 0.16 650 18 DPAK (M1) ZXMP7A17G P -70 -3.7 3.9 0.25 0.16 650 18 SOT223 (M1) BVDSS ID PD Ciss typ.@ Qg typ.@ VGS = 4.5V A W VGS = 10V V VDS = 30V pF VGS = 10V nC Complementary 60V Part number Polarity RDS(on) max. @ Package ZXMC6A09DN8 N+P 60 -60 5.1 -4.8 2.1 0.06 0.08 0.04 0.055 1410 1580 24 44 SO8 (M3) ZXMC4559DN8 N+P 60 -60 4.7 -3.9 2.1 0.075 0.125 0.055 0.085 1063 1021 20.4 24.2 SO8 (M3) Polarity BVDSS ID PD Ciss typ.@ Qg typ.@ Package VGS = 4.5V A W VGS = 10V V VDS = 30V pF VGS = 10V nC H-bridge 60V Part number RDS(on) max. @ ZXMHC6A07T8 2xN 2xP 60 -60 1.8 -1.5 1.7 0.35 0.63 0.25 0.425 166 233 3.2 5.1 SM8 (M1) ZXMHN6A07T8 4xN 60 1.6 1.25 0.35 0.25 166 3.2 SM8 (M2) D G4 G3 G4 S2,S3 D3,D4 G2 D3,D4 G2 S1,S4 S1,S2 D2,S3 G1 D1,D2 G1 D1,S4 G3 D G S D D G S DPAK (M1) SM8 (M1) SM8 (M2) * *Indicative relative size 46 SOT223 (M1) 60V N-channel self-protected IntelliFETTM Part number Additional Function TAB BVDSS ID PD RDS(on) max. @ VDS(S/C)(1) EAS (2) TJT (3) Package VIN = 3V VIN = 5V VIN = 10V V A W m m m VIN = 5V V mJ C - 675 550 36 550 150 SOT223 (M2) 675 550 36 550 150 SOT223 (M3) VIN = 5V Improved power dissipation D 60 1.4 2.5 ZXMS6002G with status flag D 60 1.4 2.5 ZXMS6003G with status and programmable current limit D 60 1.4 2.5 - 675 550 36 550 150 SOT223 (M3 ZXMS6005G* BSP75N pin out S 60 1.3 1.5 600 500 - 36 550 150 SOT223 (M4) ZXMS6004FF* High power SOT23 - 60 1.3 1.5 600 500 - 36 550 150 SOT23F BSP75N pin out S 60 1.2 1.5 - 675 550 36 550 150 SOT223 (M4) 500A input current S 60 1.1 1.5 2000 675 - 36 550 150 SOT223 BSP75N ZXMS6001G *Advance information (1) Maximum drain source voltage during short circuit conditions (2) Unclamped single pulse inductive energy absorption (3) Thermal overload trip temperature S D D D S Status IN SOT223 (M2) S S D S D G IN IN SOT223 (M4) SOT223 (M3) * *Indicative relative size 47 SOT23F (T1) (M4) 3.0 MOSFETs BSP75G N-channel from 80 to 100V Part number Polarity BVDSS ID PD RDS(on) max. @ Ciss typ.@ Qg typ.@ Package VGS=3V VGS=4.5V VGS=5V VGS=6V VGS=10V V A W VDS=50V pF VGS=10V nC ZXMN10A09K N 100 7.7 10.1 - - - 0.1 0.085 1313 26 DPAK (M1) ZXMN10A25K N 100 4.2 4.2 - - - 0.15 0.125 859 17 DPAK (M1) ZXMN10A25G N 100 2.9 2 - - - 0.15 0.125 859 17 SOT223 (M1) ZXMN10A11K N 100 2.4 4 - - - 0.45 0.35 274 5.4 DPAK (M1) ZXMN10A11G N 100 2.4 3.9 - - - 0.45 0.35 274 5.4 SOT223 (M1) ZXMN10A08DN8 2 x N 100 2.1 1.8 - - - 0.3 0.25 405 7.7 SO8 (M2) ZXMN10A08G N 100 2 2 - - - 0.3 0.25 405 7.7 SOT223 (M1) ZXMN10A08E6 N 100 1.9 1.7 - - - 0.3 0.25 405 7.7 SOT23-6 (M1) ZXMN10B08E6 N 100 1.9 1.7 - 0.3 - - 0.23 497 9.2 SOT23-6 (M1) ZVN4310G N 100 1.67 3 - - 0.75 - 0.54 200 6 SOT223 (M1) ZXMN10A07Z N 100 1.4 1.5 - - - 0.9 0.7 138 2.9 ZVN4310A N 100 0.9 1.1 - - 0.65 - 0.5 200 6 ZVN4210G N 100 0.8 2 - - 1.8 - 1.5 65 2.7 SOT223 (M1) ZXMN10A07F N 100 0.8 0.8 - - - 0.9 0.7 138 2.9 SOT23 (M1) ZVNL110G N 100 0.6 2 - - 4.5 - 3 60 1.8 SOT223 (M1) 0.5 SOT89 (M1) E-Line (M1) ZVN2110G N 100 2 - - - - 4 60 1.8 SOT223 (M1) ZVN4210A N 100 0.45 0.7 - - 1.8 - 1.5 65 2.7 E-Line (M1) ZVN2110A N 100 0.32 0.7 - - - - 4 60 1.8 E-Line (M1) ZVNL110A N 100 0.32 0.7 - - 4.5 - 3 60 1.8 E-Line (M1) ZVN3310A N 100 0.2 0.625 - - - - 10 25 0.7 E-Line (M1) BSS123 N 100 0.17 0.36 - - - - 6 25 0.7 SOT23 (M1) BSS123A N 100 0.17 0.36 - 10 - - 6 40 1.2 SOT23 (M1) ZXM41N10F N 100 0.17 0.36 12 8 - - - 25 1.2 SOT23 (M1) ZVN3310F N 100 - - - - 10 25 0.7 SOT23 (M1) 0.1 0.33 D D G DPAK D3,D4 G2 S1,S4 G1 D1,D2 S S G4 G3 S2,S3 D D D N/C G G S1 D1 G1 D1 S2 D2 D2 G2 S SM8 (M1) SOT223 (M1) SOT223 (M1) SO8 (M5) (M2) * S D D G S S D D D D G G S D D G Rounded face DG S SOT89 (M1) SOT23F (M1) SOT23 (M1) * *Indicative relative size 48 SOT23-6 (M1) E-line (M1) P-channel from 80 to 100V Part number Polarity BVDSS ID PD RDS(on) max. @ VGS = -6V V A W Ciss typ.@ Qg typ.@ Package VGS = -10V VDS = -50V pF VGS = -10V nC ZXMP10A18K P -100 -3.8 4.3 0.19 0.15 1055 27 DPAK (M1) ZXMP10A18G P -100 -3.7 3.9 0.19 0.15 1055 26.9 SOT223 (M1) ZXMP10A16K P -100 -3 4.24 0.29 0.235 717 16.5 DPAK (M1) P -100 -3.9 4.3 0.450 0.350 424 10.7 DPAK (M1) ZXMP10A17E6 P -100 -1.6 1.7 0.45 0.35 424 10.7 SOT23-6 (M1) ZXMP10A13F P -100 -0.7 0.8 1.45 1 141 3.5 SOT23 ZVP2110G P -100 -0.31 2 - 8 58 1.8 SOT223 (M1) ZVP2110A P -100 -0.14 0.7 - 8 58 1.8 E-Line (M1) ZVP3310A P -100 -0.14 0.625 - 20 20 0.7 E-Line (M1) ZVP3310F P -100 -0.075 0.33 - 20 20 0.7 SOT23 (M1) Ciss typ.@ Qg typ.@ (M1) H-bridge from 80 to 100V Part number Polarity 2xN 2xP ZXMHC10A07T8 BVDSS ID PD RDS(on) max. @ Package VGS = 6V A W VGS = 10V V VDS = 60V pF VGS = 10V nC 100 -100 1.4 -1.3 1.3 0.9 1.45 0.7 1 138 141 2.9 3.5 SM8 (M1) N-channel from 150 to 450V Part number Polarity BVDSS ID PD RDS(on) max. @ VGS=3V VGS=5V A W VGS=2.4V VGS=2.5V VGS=2.6V V Ciss typ. Qg typ. Package @ @ VGS=10V VDS=50V VGS=10V pF nC ZVN2120G N 200 0.32 2 - - - - - 10 58 2.2 SOT223 (M1) ZVNL120G N 200 0.32 2 - - - 10 10 - 58 2.2 SOT223 (M1) ZVN2120A N 200 0.18 0.7 - - - - - 10 58 2.2 E-Line (M1) ZVNL120A N 200 0.18 0.7 - - - 10 10 - 58 2.2 E-Line (M1) BS107P N 200 0.12 0.5 - - 23 - 30 - 58 2.7 E-Line (M1) ZVN3320A N 200 0.1 0.625 - - - - - 25 - - E-Line (M1) ZVN3320F N 200 0.06 0.33 - - - - - 25 - - SOT23 (M1) ZVN4424G N 240 2.5 - 6 - - - 5.5 100 18 SOT223 (M1) ZVN4424A N 240 0.26 0.75 - 6 - - - 5.5 100 18 E-Line (M1) ZVN4424Z N 240 0.26 0.75 - 6 - - - 5.5 100 18 SOT89 (M1) ZVN0124A N 240 0.16 0.7 - - - - - 16 62 1.4 E-Line (M1) ZVN4525G N 250 0.31 2 9.5 - - - - 8.5 72 2.5 SOT223 (M1) ZVN4525Z N 250 0.24 1.2 9.5 - - - - 8.5 72 2.5 SOT89 (M1) ZVN4525E6 N 250 0.23 1.1 9.5 - - - - 8.5 72 2.5 SOT23-6 (M1) ZVN0545G N 450 0.14 2 - - - - - 50 55 - SOT223 (M1) ZXMN0545G4 N 450 0.14 2 - - - - - 50 55 - SOT223 (M5) ZXMN0545FF N 450 0.09 1.5 - - - - - 50 55 - SOT23F (M1) ZVN0545A N 450 0.09 0.7 - - - - - 50 55 - E-Line (M1) 0.5 49 3.0 MOSFETs ZXMP10A17K P-channel from 150 to 450V Part number Polarity BVDSS ID PD RDS(on) max. @ VGS = -3.5V V A W Ciss typ. @ Qg typ. @ VGS = -10V VDS = -50V pF VGS = -10V nC Package ZVP2120G P -200 -0.3 2 - 25 65 1.6 SOT223 (M1) ZXMP2120G4 P -200 -0.3 2 - 25 65 1.6 SOT223 (M5) ZXMP2120FF P -200 -0.137 1 - 28 65 1.6 SOT23F (M1) ZXMP2120E5 P -200 -0.122 0.75 - 28 65 1.6 SOT23-5 (M1) ZVP2120A P -200 -0.12 0.7 - 25 65 1.6 E-Line (M1) ZVP1320F P -200 -0.035 0.33 - 80 28 2 SOT23 (M1) ZVP4424G P -240 -0.48 2.5 11 9 100 3.7 SOT223 (M1) ZVP4424Z P -240 -0.2 1 11 9 100 3.7 SOT89 (M1) ZVP4424A P -240 -0.2 0.75 11 9 100 3.7 E-Line (M1) ZVP4525G P -250 -0.265 2 18 14 75 2.5 SOT223 (M1) ZVP4525Z P -250 -0.205 1.2 18 14 75 2.5 SOT89 (M1) ZVP4525E6 P -250 -0.197 1.1 18 14 75 2.5 SOT23-6 (M1) ZVP0545G P -450 -0.075 2 - 150 - - SOT223 (M1) ZVP0545A P -450 -0.045 0.7 - 150 - - E-Line (M1) D D G D3,D4 G2 S1,S4 G1 D1,D2 S S G4 G3 S2,S3 D D D S D D N/C G G G S DPAK (M1) SM8 (M1) SOT223 (M1) SOT223 (M5) SOT89 (M1) * S S D D G G D D N/C D D D G S N/C S Rounded face G DG S SOT23F (M1) SOT23 (M1) SOT23-6 (M1) * *Indicative relative size 50 SOT23-5 (M1) E-line (M1) 3.0 MOSFETs 51 52 Current monitors Section 4.0 Contents Current output current monitors 54 Voltage output current monitors 56 53 4.0 Current monitors The increasing need to make more intelligent power management decisions requires accurate and reliable current monitoring. Dedicated current monitoring ICs from Zetex provide the reporting and protection functions to suit a range of power management applications. Two output formats are offered: a versatile current output and a voltage output for greater simplicity and accuracy. Current output current monitors ZXCT current monitors with a current output convert a highside current measurement to a ground referred current output, thereby greatly simplifying highsided current measurements. The devices enable gain to be set by a single external resistor. addition of 1 or 2 transistors (see AN45 for more information). Features The common-mode voltage of the monitored current can be substantially increased by the Part number Description Applications High-side current sensing Over-current monitor Output voltage scaling Battery chargers Up to 2.5V sense voltage Battery gauges 2.5V - 20V supply range Power management 1% typical accuracy DC motor control VIN Accuracy Quiescent Gain Bandwidth Package @ VSENSE = 100mV current output/VSENSE % A MHz V ZXCT1008 Automotive temperature range micro-power current monitor 2.5 to 20(1) 2.5 4 10mA/V 2 SOT23 ZXCT1009 Micro-power current monitor 2.5 to 20(1) 2.5% 4 10mA/V 2 SM8 SOT23 2.5% 3.5 10mA/V 2 SOT23-5 A 2.5% 4 10mA/V(2) 1.5 SOT23-5 B 2.5% 3.5 10mA/V 2 Micro-power current 2.5 to 20 monitor with improved offset Simple current monitor ZXCT1011 2.5 to 20(1) with improved temperature drift Reduced height ZXCT1012 micro-power current 2.5 to 20 monitor ZXCT1010 TDFN3x3-5 TSOT23-5 ZXCT1020 Low offset current monitor 2.5 to 20 2% 25 Prog. 1 SOT23-5 D ZXCT1050 Wide common-mode current monitor 2.5 to 20 3% 50 Prog. 1 SOT23-5 C (1) Relative to IOUT (2) Gain with RSH at 120 Application notes AN45 High voltage current monitoring using the ZXCT1009 and ZXCT1010 in power supplies AN39 Current measurement applications handbook AN46 The use of Zetex current monitors with the PolyswitchTM overcurrent device Connection diagrams S- NC NC NC S+ NC OUT NC S+ S- NC S+ OUT GND OUT SM8 S- NC OUT S+ RSH STop view Top view Top view SOT23 SOT23-5 A / TSOT23-5 SOT23-5 B * VCC S- S+ GND GND VOUT OUT S+ Top view SOT23-5 C S- VB NC 3 GND 2 OUT 1 Top view bottom view SOT23-5 D TDFN533 * *Indicative relative size 54 4 S- 5 S+ Design note DN77 Current monitoring with the ZXCT1009 considering high voltage transients (low cost current monitor for high voltage transients). SENSE IN The ZXCT1008 and ZXCT1009 are the simplest of the current monitors. The output is a current which is proportional to the sense voltage, measured across a low value shunt resistor, Rsense. The output current can be converted to a voltage and scaled by choice of an appropriate resistor, Rout. Quiescent current of only 4A has minimal impact on system power efficiency. Operating voltage is from 2.5V to 20V, which makes these parts suitable for a wide range of applications. OUT G 4.0 The ZXCT1010 and ZXCT1012 have the same characteristics as the ZXCT1009 but with a separate ground pin to avoid the circuit current flowing through the output resistor. This reduces the current offset and improves accuracy particularly at lower sense voltages. OUT The ZXCT1012 has the same performance as the ZXCT1010 but in thinner packages. G SENSE IN The ZXCT1011 uses an external resistor to determine its transconductance resulting in a much lower temperature coefficient. RSH ZXCT1011 OUT This gives a better accuracy at temperature extremes without losing any of the parameters found in ZXCT1008/9 devices. G GND R SENSE R SH VB S+ S- ZXCT1020 VOUT OUT GND The ZXCT1020 uses an external resistor to set its transconductance and allows its offset to be trimmed. This increases the ZXCT1020 accuracy over the ZXCT1010 while maintaining the versatility of the ZXCT101. RG VCC S+ VCC RSH The ZXCT1050 is the current output version of the ZXCT1051. Two resistors are now off-chip; 1 sets the transconductance and other sets the gain. VOUT Its offset is trimmed improving accuracy at small sense voltages S- ZXCT1050 GND OUT RG 55 Current monitors SENSE IN Voltage output current monitors ZXCT current monitors with voltage output convert a high-side current measurement to a ground referred voltage output thereby greatly simplifying high-sided current measurements. The devices offer an internally set gain with low offset voltages and low temperature drift, which optimizes performance at low sense voltages. Features Part number VIN Description Applications High-side current sensing Over-current monitor Output voltage scaling Battery chargers Up to 2.5V sense voltage Smart battery packs 2.5V - 20V supply range Power management 1% typical accuracy DC motor control Accuracy Quiescent Gain Bandwidth Package current output/VSENSE @ VSENSE = 100mV MHz A % V ZXCT1021 Voltage output 2.5 to 20 2% 25 10V/V 1 SOT23-5A ZXCT1022 Voltage output 2.5 to 20 3% 25 100V/V 1 SOT23-5A 2.5 to 20 3% 270 10V/V 6 SO8A SO8B Enhanced function ZXCT1030 with internal reference and comparator ZXCT1032 High side inrush current limit controller 9.5 to 21 - 1600 10V/V - ZXCT1041 Bidirectional voltage output with direction flag 2.7 to 20 3% 35 10V/V 0.3 SOT23-5B ZXCT1051 Precision wide input range current monitor 0 to VCC -2 3% 50 10V/V 2 SOT23-5C ZXCT1080 High voltage High-Side Current Monitor 3 to 60 3% 30 10V/V 0.5 SOT23-5C ZXCT1081 High voltage High-Side Current Monitor 3 to 40(1) 3% 30 10V/V 0.5 SOT23-5C (1) 60V transient Connection diagrams VCC 1 8 Vcomp S- 2 7 VOUT S+ 3 6 Vref GND 4 5 Vcomp out out in GND- 1 8 IN+ CT 2 7 N/C ISET 3 6 IN- Flag 4 5 NC S- FLAG S+ VOUT GND GND VOUT Drive Top view Top view Top view SO8A SO8B SOT23-5A * VCC S- GND VOUT S+ Top view SOT23-5C Application notes AN39 Current measurement applications handbook AN46 The use of Zetex current monitors with the PolyswitchTM overcurrent device * *Indicative relative size 56 S- S+ Top view SOT23-5B VIN To load SENSE S+ S- ZXCT1021/2 OUT OUT S+ S- VCC VOUT S+ To load S- FLAG ZXCT1041 GND VOUT VOUT RSENSE VSENSE+ VSENSE- S+ VCC SZXCT1051 VOUT VOUT RSENSE VSENSE+ VSENSE- S+ VCC S- ZXCT1080/1 VOUT VOUT RSENSE VIN 8 IN+ 3 ISET 1 GND 6 INZXCT1032 Drive 5 Load CT 2 CT C The ZXCT1030 is a voltage output current monitor with fixed gain scaling of 10. A non-latching output comparator and 1.24V voltage reference are also included on-chip to make more integrated solutions possible. Operating voltage range is 2.2V to 20V and quiescent current is only 270A. A separate Vcc supply ensures the device gives an output under short circuit conditions. When the VS+ and VS- falls below about 2.2V, then the comparator defaults to the asserted state. By feeding reference output to the comparator input a simple and compact over-current protection circuit can be developed. Flag 4 The ZXCT1041 is a bidirectional voltage output current monitor with direction flag. The flag is an open collector output enabling it to be coupled to a wide range of logic level voltages. The voltage output pin is analog and is internally scaled to 10 times VSENSE. The ZXCT1041 operates from 2.7V to 20V enabling it to work in a wide range of applications including automotive, motor control and battery gas-gauging. Apart from its flag output the ZXCT1041 is pin compatible to the ZXCT1021. The ZXCT1051 is a wide common-mode range voltage output current monitor designed to measure at voltages ranging from under supply to ground. This makes the device suitable for systems which need to function under short circuit conditions. An auxiliary power supply is required to feed the device and keep the internal circuitry active. Vcc range is 20V to 3V and VS+ is Vcc -2V to 0V. Supply current is 50A and the performance is similar to the ZXCT1021, with internal gain setting of 10. The ZXCT1081 has a wide continuous common-mode input range from 3V to 40V (60V transient). The ZXCT1080 extends the continuous common mode range to 60V. This allows it to measure currents in a wide range of applications ranging from computer power supplies to automotive. A separate power supply pin provides power to an internal buffer lowering the output impedance The ZXCT1032 provides in-rush current limiting and over current protection functions and when used with an external P-MOSFET behaves as an electronic fuse. At power up the load current is gradually increased; protecting input power supply from large capacitive loads. In over-current protection mode the device is transparent; just measuring the output current. When the over-current threshold is exceeded the device switches off the MOSFET protecting both the load and supply rail from damage. The ZXCT1032 will auto retry. 57 4.0 Current monitors RSENSE VIN The ZXCT1021 and ZXCT1022 are voltage output current monitors, with fixed gain scaling. Vout = Gain x VSENSE. The output is scaled internally by 10 on the ZXCT1021 and 100 on the ZXCT1022. This scaling allows low value sense resistors to be used, thus reducing power dissipation and voltage drop. The ZXCT1021 and ZXCT1022 are pin compatible with the ZXCT1010, which provides an easy upgrade path for improved performance. Voltage references Section 5.0 The Zetex range of voltage reference devices significantly extends the performance of many industry standard parts. Offered in a choice of space saving packages, they provide the opportunity to reduce power consumption and increase operating temperature. Contents Shunt regulators 59 Micro-power voltage regulators 60 Industry standard references 61 58 Shunt regulators Features These devices improve on industry standard products, notably their quiescent current is substantially lower than competitive alternatives. 2.5V devices are available as well as 1.24V for low voltage circuits. Industrial and extended temperature range devices are available. The ZTL range matches most TL431/2 specifications for applications where quiescent current is not critical. Part number Operating temperature range C Applications No stabilizing capacitor required Battery powered and portable equipment Min. knee current 50A Metering and measurement systems 2.5%, 2% 1% and 0.5% (selected devices) tolerance Precision power supplies Small outline SOT23 and SC70 packages Switch mode power supplies Improved temperature coefficient Reference Min. output Max. output Min. cathode voltage voltage voltage V V current A V Max. cathode current mA Tolerance Package @25C(1) % SOT23 SC70-6 SOT23A -40 to 85 0.6 0.2 18 - 20 0.5, 1 ZR431L -40 to 85 1.24 1.24 10 100 25 1, 2.5 TLV431 -40 to 125 1.24 1.24 18 100 15 0.1, 1 ZHT431 -55 to 125 2.5 2.5 20 50 100 1, 2 ZR431 -40 to 85 2.5 2.5 20 50 100 0.5, 1, 2 SOT223 SOT23A ZTL431 -40 to 125 2.5 2.5 20 1000 100 0.5, 1 SOT23B SC70-6 SOT23-5 ZTL432(2) -40 to 125 2.5 2.5 20 1000 100 0.5, 1 SOT23A (2) SOT23A SC70-6 SOT23-5 SOT23A Matches pinout of TL432 in SOT23 Application note AN27 ZR431 application note ZTL competitive comparision Part number ZR431 ZTL431 Bandgap voltage TL431 2.5V Initial tolerance 2, 1, 0.5% 1, 0.5% 20V 20V 36V 50A (max.) 400A 400A Operating voltage (max.) Min. operation current (typ.) Operating current range 0.05 to 100mA 1 to 100mA 1 to 100mA 55ppm/C 50ppm/C (typ.) 50ppm/C (typ.) Temperature coefficient (max.) Dynamic impedance (max.) 0.75 0.75 0.75 -55 to 125C -40 to 125C -40 to 85C SOT23 and SOT223 SOT23, SC70-6, SOT23-5 SOT23, TO92 & SOT23-5 Temperature range (max.) Packages 2, 1, 0.5% (Bold) denotes improvement of specification. Connection diagrams VREF 3 VZ GND Cathode 3 N/C 1 GND GND 1 Anode Anode N/C+ Cathode 1 6 Anode 2 5 float ng or REF 3 4 NC Must be eft connected to anode VZ 2 VREF Top view SOT223 Cathode Ref 2 Top view SOT23A REF Top view Top view SOT23B SOT23-5 * *Indicative relative size 59 Top view SC70-6 5.0 Voltage references ZXRE060 Micro-power voltage references Features The ZRB devices operate from a minimum operating current of 50A with temperature coefficients generally of 90ppm/C maximum. Temperature coefficient down to 50ppm/C Battery powered and portable equipment Metering and measurement systems No stabilizing capacitor required Instrumentation SOT23 package Zetex micro-power references are designed to operate over the temperature range -40 to 85C. Reverse breakdown voltage Precision power supplies Minimum (knee) current down to 8A The ZXRE devices offer even lower minimum operating currents down to 8A. Part number Applications Min. current Max. current Test equipment A mA Max. temperature coefficient ppm/C % ZXRE1004 1.22 8 20 75 0.6 1 SOT23 ZXRE125 1.22 8 20 75 0.6 0.5, 1, 2 SOT23 ZRC250 2.5 20 5 90 1 1, 2 SOT23 ZRC330 3.3 20 5 50 2 1, 2 SOT23 ZRC400 4.096 23 5 90 2 1 SOT23 ZRB500 5 50 15 50 1.5 1, 2 SOT23 ZRC500 5 25 5 90 2 1 SOT23 Application circuit Micropower 2.5V reference 5V RB=100k 2.5V Connection diagram VR 3 1* *Pin 1 should be left open or connected to pin 2. GND 2 Top view SOT23 * *Indicative relative size 60 Max. slope resistance Tolerance @25C Package Industry standard references Features Zetex has taken the features of its micro-power references to provide improved versions of three industry standard families. Applications 0.5%, 1%, 2% and 3% tolerance Precision power supplies Battery powered equipment 20ppm/C typical temperature coefficient ZXRE4041 offers a better minimum operating current than the LM4041. The ZR4040 family also offers a better minimum operating current than the LM4040. ZR285 has a better temperature coefficient than the LM285-2.5. Portable communications devices 20A knee current SOT23 package Notebook and palmtop computers Zetex micro-power references are offered in industrial and extended temperature versions. Part number Competitior Reverse Min. Max. Max. Max. slope Tolerance Package part breakdown current current temperature resistance @25C coefficient number voltage ppm/C A mA % LM4041 1.225 30 12 100 0.92 LM4041 LM4041 1.225 30 12 100 0.6 ZR285-2.5 LM285-2.5 2.5 20 20 90 1 ZR4040-2.5 LM4040-2.5 2.5 50 20 90 2 LM4040-2.5 LM4040-2.5 2.5 60 15 100 0.9 3 62 15 100 0.9 90 2 LM4040-3.0* LM4040-3.0 ZR4040-4.1 LM4040-4.1 4.096 50 20 ZR4040-5 LM4040-5.0 5 50 20 90 LM4040-5.0 LM4040-5.0 5 60 15 100 0.5, 1, 2 SOT23 0.5, 1 1 SOT23 0.5, 1, 2 SOT23 0.5, 1 SOT23, SC70-5* 0 2, 0 5, 1 SOT23, SC70-5* 1 SOT23 1.5 1 SOT23 1.1 0.5, 1 SOT23, SC70-5* *due late Q2, 2008 LM4040 and LM4041 competitive comparison Company Zetex Part number NSC LM4040-25 Bandgap voltage 5.0 SOT23, SC70-5* Zetex NSC LM4040-25 LM4040-50 LM4040-50 2.5V 5.0V 2, 1, 0.5, 0.2, 0.1 60 Zetex NSC LM4041 LM4041 1.225V 2, 1, 0.5, 0.2, 0.1 60 % 1, 0.5 Min. current A Max. current mA Temp co. ppm/C Noise VRMS 45 35 105 80 60 20 C -40 to 125 -40 to 85 -40 to 125 -40 to 85 -40 to 125 -40 to 85 SOT23 SC70-5 SOT23, SC70-5 SOT23 SC70-5 SOT23, SC70-5 SOT23 SC70-5 SOT23, SC70-5 Initial tolerance Temp. range Packages Application circuit Precision 1.225V reference 3V RB=36k 1, 0.5 60 2, 1, 0.5, 0.2, 0.1 60 15 15 15 15 15 15 100 100 100 100 100 100 60 1, 0.5 60 Connection diagram 1.225V ANODE 1 VR 3 1* GND 2 *Pin 1 should be left open or connected to pin 2. 5 N/C *Pin 2 should be left open or connected 4 N/C to pin 1. N/C 2 CATHODE 3 Top view Top view SOT23 SC70-5 * *Indicative relative size 61 Voltage references ZXRE4041 Linear regulators Section 6.0 Consisting of four distinct product families, the Zetex regulator range provides designers with the means to find the best low power regulator for the job - every time. The low quiescent current and high current handling of many Zetex regulators means industry standard parts are simply outperformed. Contents 62 Miniature linear regulators 64 Industry standard improved regulators 65 Ultra-low dropout regulators 66 Micro-power low dropout regulators 67 Linear regulator families Family Feature Output voltage Miniature linear regulators Small SOT23 package general purpose regulator Improved industry standard equivalents Ultra-low dropout regulators Equivalent to 78L range Extremely low dropout but with lower IQ and voltage and high IMAX higher IMAX Micro-power low dropout regulators Equivalent to MAX8511, MIC5213, LMS5213 2.5, 3.3, 5.0V 3.0, 3.3, 5.0,10V 3.3, 5.0V 2.5, 2.8, 3.0, 3.3V 2.5% 2.5% 2% 2% Input voltage (max.) 20V 20V 20V 5.5V Dropout voltage (max.) 2V 2V 75mV @ 100mA 280mV @ 100mA 40A to 100A 600A 1mA 50A N/A N/A 30A 1A 50mA 200mA 300mA 150mA Temperature range -55 to +125C -55 to +125C -40 to +85C -40 to +85C Dissipation/power SOT23 = 500mW SOT223 = 2W SM8 = 2W SC70-5 = 300mW TSOT23-5 = 450mW Tolerance Quiescent current (max.) Standby current Output current (max.) 6.0 Linear regulators 63 Miniature linear regulators Designed specifically for applications where space saving is important, the ZMR series is available in the small SOT23 package. These devices supply up to 50mA load current with quiescent current typically down to 30A. Devices in the ZMR series are designed to operate over the temperature range -55 to 125C. The ZMR250 and ZMR500 have had their operating voltage increased to 22.5V and 25V respectively thereby replacing the ZMR25H and ZMR50H. Part number Output voltage(1) Features 2.5V, 3.3V and 5V output Local voltage regulation 22.5V, 24V and 25V maximum input voltage Ideal for applications where space is critical Output current up to 50mA Very low quiescent current (typically 30A) SOT23 package -55 to 125C ambient temperature range Max. input Min. output voltage current V Applications V mA Max. quiescent current A Typical dropout voltage V Max. line regulation Max. load regulation mV mV Package ZMR250 2.5 22.5 50 40 1.7 15 30 SOT23 ZMR330 3.3 24 50 170 1.7 10 35 SOT23 ZMR500 5 25 50 70 1.7 15 40 SOT23 (1) Output voltage tolerance 2.5% Connection diagram IN GND OUT Top view SOT23 * *Indicative relative size 64 Industry standard improved regulators For circuits requiring higher currents, these devices can handle load currents up to 200mA whilst maintaining a quiescent current of typically only 350A. The ZSR range offers performance characteristics superior to other local voltage regulators and are in a higher power dissipation package as standard. Devices in the ZSR series are designed to operate over the temperature range -55 to 125C. Part number Output voltage(1) Features Applications 350A low quiescent current Local voltage regulation Improved line and load regulation General voltage regulation Output current to 200mA SOT223 package Max. input Min. output voltage current V V mA Max. quiescent current A Typical dropout voltage V Max. line regulation Max. load regulation mV mV Package ZSR300 3 20 200 600 1.7 40 25 SOT223 ZSR330 3.3 20 200 600 1.7 30 25 SOT223 ZSR500 5 20 200 600 1.7 40 25 SOT223 ZSR1000 10 20 200 600 1.7 40 30 SOT223 (1) Output voltage tolerance 2.5 ZSR500 comparison ZSR500 Output voltage Industry 5V 5V 2.5% 4% Input voltage (max.) 20V 35V Dropout voltage (max.) 2V 2V Quiescent current (max.) 600A 5.0mA Output current (max.) 200mA 100mA Line regulation (max.) 40mV 150mV Load regulation (max.) 25mV 60mV Temperature co-efficient (typ.) 0.1mV/C -0.65mV/C Package SOT223 TO92 - SO8 - SOT89 Tolerance (Bold) denotes improvement of specification. Connection diagram OUT GND GND IN Top view SOT223 * *Indicative relative size 65 Linear regulators Family 6.0 Ultra-low dropout regulators The ZLDO regulator series utilizes a novel approach to achieve exceptional performance. The devices use the Zetex SM8 package which has 8 pins and is based on the SOT223 body outline. The superior design allows the ZLDO to take advantage of the output device saturation voltage to produce an exceptionally low dropout voltage of only 30mV with 100mA load current. A control pin is provided for device disable and a further pin gives a warning flag for low supply input. Devices in the ZLDO series are designed to operate over the temperature range -40 to 85C. Output Max. input voltage(1) voltage V V Battery powered devices Laptop/palmtop computers PDAs Features Very low dropout voltage: 6mV dropout at 10mA output For battery applications low power dissipation is a necessity so the controller circuit design has been optimized to produce a quiescent current of 560A, with 1mA quiescent current at 300mA load. Part number Applications 30mV dropout at 100mA output 100mV dropout at 300mA output Low quiescent current SM8 package Dropout voltage(2) mV Max load Quiescent Shutdown Load Line Package current current regulation(3) regulation current mA A A mV mV ZLDO330 3.3 20 30 300 560 11 78 52 SM8 ZLDO500 5 20 30 300 560 11 23 70 SM8 (1) Output voltage tolerance 2% (2) IL=100mA (3) IL=10 to 300mA % Connection diagram LBF Spg SC GND VIN D/C NC VOUT Top view SM8 * *Indicative relative size 66 Micro-power low dropout regulators Features The ZXCL range of low dropout regulators offers a very high performance in a very small package. They are available in the tiny SC70-5 pin package as well as the industry standard SOT23-5 package. The devices are inherently stable with tantalum and ceramic capacitors. Low output noise is achieved without the need for bypass capacitors. Part number Applications Low 85mV dropout at 50mA load Portable and battery powered equipment Ultra small SC70-5 package Cellular and cordless phones 25A typical ground pin current Palmtop and laptop computers Cameras, camcorders, personal stereos, PDAs 2.5, 2.8, 3.0 and 3.3V output Output voltage tolerance 2% Output Max. input voltage(1) voltage V V mV mA V A Output noise voltage(3) Vms ZXCL250 2.5 5.5 85 100(3) 25 0.01 50 ZXCL5213V25 2.5 5.5 85 100(3) 25 0.01 50 ZXCL280 2.8 5.5 85 150 25 0.01 50 ZXCL5213V28 2.8 5.5 85 150 25 0.01 50 ZXCL300 3 5.5 85 150 25 0.01 50 ZXCL5213V30 3 5.5 85 150 25 0.01 50 ZXCL330 3.3 5.5 85 150 25 0.01 50 ZXCL5213V33 3.3 85 150 25 0.01 50 Max. load current Quiescent current Shutdown current 5.5 (2) IL=50mA Package SOT23-5 SC70-5A SC70-5B SOT23-5 SC70-5A SC70-5B SOT23-5 SC70-5A SC70-5B SOT23-5 SC70-5A SC70-5B (3) Limited by RDS(on) and power dissipation effects with 3 volt input voltage ZXCL LDO comparison Family MIC5213 ZXCL MAX8511 Output voltage 2.5, 2.8, 3.0, 3.3 Tolerance at 1mA 2.5, 2.6, 2.7, 2.8, 3.0, 3.3, 3.6, 5.0 3% 2% 1.5, 1.8, 2.5, 2.7, 2.8, 2.85, 3.0, 3.3, 4.5 1% Tolerance at 100mA - 3% 3% Temperature co-efficient (typ.) 200ppm/C -15ppm/C - Input voltage (max.) 16 5.5 6 Dropout voltage (typ.) 250mV @ 50mA 85mV @ 50mA 80mV @ 80mA Dropout voltage (max.) 600mV @ 80mA 280mV @ 100mA 170mV @ 80mA Quiescent current (max.) no load 180A typ. 50A 90A Output current (max.) 80mA 150mA 120mA Shut down current (max.) 10A 1A 1A Line regulation (max.) 0.3% 0.1% No max. Load regulation (max.) 1mA to 100mA 0.5% 0.04% No max. Packages SC70-5 and SOT23-5 SC70-5 A SC70-5 B (Bold) denotes improvement of specification. VO VIN GND VIN VO GND EN NC EN NC EN NC VIN * GND VO Top view Top view Top view SOT23-5 SC70-5A SC70-5B * *Indicative relative size 67 *Should be left open or connected to pin 3 6.0 Linear regulators (1) Output voltage tolerance 2% Dropout voltage(2) DC-DC boost converters Section 7.0 Generating target voltages with the greatest efficiency possible is the goal of the Zetex series of DC-DC boost converters. Optimized for battery-powered applications, they are purpose-designed to support today's low voltage, low power supply rails. Contents 68 Low power DC-DC boost converters 69 Single and multi-cell system power boost controllers 70 Transistors and Schottky diode combinations 71 Low power DC-DC boost converters Features The ZXLD1601/1615 are boost converters for low power rails. They integrate an internal NMOS switch and current sensing resistor thereby saving PCB space and cost. They operate directly from one Li-Ion cell and provide adjustable bias voltages of up to 28V, ideal for LCD and OLED displays. Wide input voltage range: 2.5V to 5.5V Adjustable output voltage up to 28V PDAs Cellular phones Digital cameras Portable internet appliances Low shutdown current Notebook and palmtop computers 85% efficiency PWM and analog control input The ZXLD1615 is pin compatible with LT1615. Part number Applications LCD and OLED bias Small surface mount packages Input voltage range VIN Output voltage range (1) V Shutdown current Max. A Quiescent current A Efficiency Package % Switching frequency kHz ZXLD1601 2.5 - 5.5 VIN to 28 0.1 60 85 1000 SC70-6 ZXLD1615 2.5 - 5.5 VIN to 28 0.1 60 85 1000 TSOT23-5 (1) Limited only by voltage rating of external bipolar or MOSFET transistor (VCEO/BvDSS) Application circuit OLED and LCD bias generator ZHCS350 L1 VIN (nominal 3V) PWM VIN R1 LX 7.0 FB C2 R2 GND OFF C1 0V Connection diagrams VIN LX GND LX VIN GND FB EN VSENSE FB EN Top view Top view TSOT23-5 SC70-6 * *Indicative relative size 69 DC-DC boost converters ZXLD1615 EN ON VOUT Single and multi-cell system power boost controllers The ZXSC100/410/420 are voltage mode inductive boost controllers aimed at providing power rails from battery supplies. The ZXSC410/420 provide any regulated voltage above VIN from dual cell and Li-Ion cells with a typical line regulation of 1%. The ZXSC420 option provides an `end of regulation' flag which uses all available battery energy before signalling a shutdown. The ZXSC100 caters for single cell operation with a guaranteed start up under full load conditions down to 1V. All products feature a programmable peak current to optimize efficiency and supply requirements. Maximum output voltages are limited only by the rating of the external switching device. Part number The ZXSC440, although intended for camera flash applications, combines the shutdown and end of regulation features of the ZXSC410 and ZXSC420 respectively. Features Applications System supplies from dual cell and Li-Ion cells - ZXSC410/420 LCD bias voltage supplies - ZXSC410/420 System supplies from single alkaline, NiCad or NiMH cells - ZXSC100 Typical 1% load and line regulation - ZXSC410/420 4.5A typical shutdown current - ZXSC410/440 System supplies from solar cells - ZXSC100 End of regulation flag - ZXSC420/440 Camera flash - ZXSC440 Single cell operation - ZXSC100 Programmable peak switch current Input voltage range V Output voltage range (1) V Shutdown current A Typical Quiescent current A Efficiency Package ZXSC100 0.93 - 3.5 VIN to VM - 150 82 SO8 ZXSC410 1.8 - 8.0 VIN to VM 4.5 150 85 SOT23-6A ZXSC420 1.8 - 8.0 VIN to VM - 150 85 SOT23-6b ZXSC440 1.8 - 8.0 VIN to VM 4.5 150 85 MSOP8 % (1) VM - limited only by voltage rating of external bipolar or MOSFET transistor (VCEO/BVDSS) Application circuit ZXSC410 two cell boost converter L1 D1 ZHCS1000 3.3V C1 * AN33 ZXSC100 single cell DC-DC converter LED driving applications Q1 ZXTN25040 R2 U1 VCC C2 VDRIVE STDN ISENSE GND ZXSC410 Application notes VFB R1 R3 70 * AN34 ZXSC100 power supply for digital still cameras Transistor and Schottky diode combinations Zetex DC-DC boost controller ICs are supported by a complementary range of discrete components. Device Switch devices Specification IC/ID/IF A 15 6 ZXTN23015DFH SOT23 15 5 ZXTN25015DFH SOT23 20 4.5 ZXTN25020DFH SOT23 40 4 ZXTN25040DFH SOT23 50 3.5 ZXTN25050DFH SOT23 30 IPK <0.2 BAT 54 SOT23 40 IPK <0.4 ZHCS400 SOD323 40 IPK <0.5 ZHCS500 SOT23 40 IPK <1.0 ZHCS1000 SOT23 Schottky diodes Combination devices Package VCEO/BVDSS/VR V NPN bipolar Rectifier diodes Part number NPN bipolar + Schottky diode 20 4.5 40 1.85 ZX3CDBS1M832 DFN832 Connection diagrams EM VDRIVE GND BAS FB RE ISENSE VCC GND SHDN MSOP8 DRIVE VCC VFB GND SENSE EOR Top view Top view SO8 DRIVE VCC VCC GND Ready Charge Drive VFB Sense N/C VFB SENSE Top view Top view SOT23-6A SOT23-6B * IN K2 K2 C1 C1 5 6 Diode 4 OUT 3 7 7.0 8 + NPN / PNP 2 BD 1 A2 N/C E1 B1 Partmark as example only for orientation DFN832 SOD323 Top view SOT23 - * *Indicative relative size 71 DC-DC boost converters GND Special functions Section 8.0 Contents Supply voltage monitors (uP generators) 73 Siren Driver 74 Temperature sensor 74 Magneto-resistive sensors 75 Through its expertise in analog chip design Zetex has been able to complement its power management ICs with a unique series of special function ICs that solve some quite specific technical challenges for a wide range of applications. 72 Supply voltage monitors (microprocessor reset generators) Features These devices are three terminal voltage monitoring circuits used in microprocessor systems. They provide a 'power on reset' function and produce a system reset 'low' on power fail. A selection of reset thresholds are available. All devices are designed to operate over the temperature range -40 to 85C. Part number VCC Applications Automatic reset generation Microprocessor systems Guaranteed operation from 1 volt Computers and computer peripherals High output current Automotive electronics Threshold voltage Hysteresis Max. output sink current V V mV mA Input voltage range V Max. quiescent current A Package ZSM300 3 2.63 20 60 1 to 6.5 190 SOT223 ZM33164-3 3 2.68 60 60 1 to 10 190 SOT223 ZSM560 5 4.6 20 60 1 to 6.5 200 SOT223 Connection diagram VCC GND GND Out Top view SOT223 * *Indicative relative size 8.0 Special functions 73 Siren driver The ZSD100 is a swept frequency alarm signal generator for static and automotive security alarm systems. Including an audio frequency signal generator, low frequency sweep generator, disable circuitry and output driver stages, it provides all the functions needed to produce a standard siren signal. Part number ZSD100 Supply Voltage range Features Wide supply voltage range Low current requirement Needs few external components Supports single-ended or push-pull output stages User selected audio and sweep frequencies Supply current V Operating mA Standby A 4 to 18 4 1 Output current source/sink Low frequency oscillator range mA Min. Hz Max. Hz 5/0.5 0.1 10 Oscillator output frequency range Min. Hz 100 Package Max. Hz 10000 SO8 Connection diagram RT VCC SAW Q CMOD Q GND COUT Top view SO8 * *Indicative relative size Temperature sensor allows the temperature measurement in different space-saving applications eg: on PCBs near heat generating devices. The ZNI1000 is a thin film Ni Resistance Temperature Detector (RTD). Its high temperature coefficient produces higher signal outputs than other RTDs, resulting in greater accuracy for smaller temperature changes. DIN 43760 specification SOT23 package Applications Circuit protection Features Temperature compensation Resistance at 0C: 1000 Temperature measurement The very small SOT23 package results in fast response time and -55 to 150C temperature range Part number Continuous current mA Resistance T= 0C |<1mA Resistance T= 100C |<1mA ZNI1000 4 1000 1618 Automotive climate control Tolerances class B -55C to 0C Tolerances class B 0C to 150C Package +/-(0.4+0.028*|T|) +/-(0.4+0.007*|T|) SOT23 Connection diagram Application notes 1 Pin 1 Pin 2 Pin 3 - 3 2 Top view Ni1000 Ni1000 Need a good thermal contact for a short reponse time SOT23 * *Indicative relative size 74 AN38 - Basic introduction to the use of the ZNI1000 nickel temperature sensor Magneto-resistive sensors (linear position) These extremely sensitive magnetic sensor chips can be used to detect the presence of magnetic parts. Available with single or dual sensors and with or without an internal magnet, the sensors suit a range of linear position measurement applications. Part number Features Applications Output proportional to magnetic field Position sensing for process control Sensitivity adjustment Scalar measurement for compassing Hysteresis suppression Fluid metering ZMY20M and ZMZ20M with internal magnet Measurement of current in a conductor without connection Supply voltage max V Output voltage mV/V Bridge resistance k Sensitivity mV/V kA/M Max. offset voltage mV/V Internal magnet Package ZMY20M 12 18 1.7 5.5 1.5 Yes SOT223S ZMZ20M 12 18 1.7 5.0 1.5 Yes E-line 4-pin Connection diagram +VO +VB E-line devices -VB -VO -VB The E-Line devices are normally available as loose product in a box (500 piece quantity). -VO +VB +VO Underside view Top view SOT223S E-Line 4-pin * *Indicative relative size Magneto-resistive sensors (angular position) Incorporating a pair of sensors mounted at 45 to each other, the ZMT31 magnetic sensor enables non-contact detection of angular position and rotation Features Applications Measures magnetic field HROT (> 50kA/m) Automotive (pedal position etc.) Contactless angular measurement Magnetic field HROT parallel to the chip surface causes a sinusoidal output signal Contactless potentiometers Contactless revolution counting SM8 package -40 to 150C ambient temperature range Part number Sensor chip alignment error Typical bridge resistance k Sensitivity(1) Max. offset voltage(1) mV/V Half bridge symmetry(1) S 5 <2 3.0 >0.2 2 <2.0 ZMT32 Connection diagram -VB1 -VO2 -VB2 +VB2 +VO2 +VB1 +VO1 SM8 Bridge 1: =0, bridge2: =45 (1) -VO1 Package Top view SM8 * *Indicative relative size 75 8.0 Special functions Supply voltage V Package information Section 9.0 DFN322 2 00 0 0787 1 00 0 0393 Direction of unreel 0 65 0 0255 0 75 0 0295 0 125 0 005 0 28 0 0110 0 25 0 0098 2 00 0 0787 0 45 0 0177 0 99 0 039 0 30 0 0118 8mm tape width Part no. suffixed TA = 3k devices per 7" reel 0 68 0 0267 Part no. suffixed TC = 10k devices per 13" reel 1 42 0 0559 mm inches DFN832 Direction of unreel 3 00 0 118 1 00 0 0394 0 125 0 0049 0 34 0 0134 0 63 0 0248 Pin 1 0 30 0 0118 2 00 0 0787 0 05 0 002 8mm tape width Part no. suffixed TA = 3k devices per 7" reel pitch 0 65 0 0256 mm inches exposed pad 1 02 0 0402 Part no. suffixed TC = 10k devices per 13" reel DPAK 6 73 0 265 5 46 0 215 1 52 0 060 6 22 0 245 1 016 0 040 1 14 0 045 mm inches Direction of unreel 2 39 0 094 0 584 0 023 1 65 0 065 10 41 0 410 0 89 0 035 0 61 0 024 2 29 0 090 16mm tape width Part no. suffixed TC = 2.5k devices per 13" reel E-Line 4 77 0 188 2 41 0 095 Direction of unreel Flat Face Rounded Face 4 01 0 158 Option A mm inches 13 97 0 550 Option B Part no. suffixed STOA = 2k devices on reel Part no. suffixed STZ = 2k devices folded per box 1 27 0 050 0 495 0 0195 76 MSOP8 0 65 0 025 0 23 0 009 Direction of unreel 4 90 3 10 0 193 0 122 Pin 1 12mm tape width 3 10 0 95 0 122 Part no. suffixed TA = 1k devices per 7" reel 0 0374 mm inches Part no. suffixed TC = 4k devices per 13" reel 0 40 1 10 0 15 0 006 0 0157 0 0433 SC70-5/6 0 30 0 0118 0 65 0 65 0 0255 0 0255 Direction of unreel 0 46 0 018 2.10 0.0826 1.25 0.0492 8mm tape width 8 1 30 0 0511 Part no. suffixed TA = 3k devices per 7" reel 0 25 0 0098 2.00 0.0787 1 00 1 10 0 0433 0 0039 mm 0 10 0 0039 inches Part no. suffixed TC = 10k devices per 13" reel Note: SC70-6 has an additional centre pin. The dimensions are the same as others in the diagram. SM8 7 30 0 287 1 70 0 067 Pin 1 3 70 0 145 6 70 0 264 0 10 0 004 Direction of unreel 1 53 0 060 0 70 0 027 15 12mm tape width Part no. suffixed TA = 1k devices per 7" reel 45 0 32 0 009 10 Part no. suffixed TC = 4k devices per 13" reel mm inches 0 90 0 035 SOD323 27 Direction of unreel 04 Cathode 1 45 9.0 8mm tape width 1 15 01 Part no. suffixed TA = 3k devices per 7" reel 0 46 02 Part no. suffixed TC = 10k devices per 13" reel Dimensions in millimeters 77 Package information 1 800 SOD523 0 90 0 0354 0 23 0 0090 Cathode Mark 0 22 0 0086 Direction of unreel 1 30 0 0511 1 70 0 0669 Cathode 0 40 0 0157 0 30 0 0118 8mm tape width 10 Part no. suffixed TA = 3k devices per 7" reel Part no. suffixed TC = 10k devices per 13" reel 0 80 0 0314 0 10 0 0039 mm inches SO8 5 00 0 197 8 Direction of unreel Pin1 4 00 0 157 6 20 0 244 1 27 0 050 12mm tape width 0 25 0 010 Part no. suffixed TA = 500 devices per 7" reel 1 75 0 069 1 27 0 050 0 51 0 020 Part no. suffixed TC = 2.5k devices per 13" reel mm inches 0 25 0 010 SOT223 6 70 1 80 3 10 1 65 Direction of unreel 7 30 3 70 12mm tape width Part no. suffixed TA = 1k devices per 7" reel Part no. suffixed TC = 4k devices per 13" reel 0 84 2 30 Dimensions in millimeters SOT23 2 64 0 104 Direction of unreel 1 90 NOM 3 04 0 075 NOM 0 120 0 50 0 020 mm inches 8mm tape width 0 62 0 024 Part no. suffixed TA = 3k devices per 7" reel 1 40 0 055 Part no. suffixed TC = 10k devices per 13" reel 1 12 0 044 0 10 0 004 Part no. suffixed TD = 500 devices per 7" reel 0 12 0 008 78 SOT23F 0 20 0 008 3 00 0 1181 Direction of unreel 2 00 0 787 0 50 0 0161 0 68 0 027 2 50 0 0984 1 70 0 067 8mm tape width 0 45 0 016 Part no. suffixed TA = 3k devices per 7" reel 1 00 0 039 mm inches Part no. suffixed TC = 10k devices per 13" reel 0 20 0 0079 SOT23-5 0 50 0 0196 0 95 0 0374 0 60 0 0236 3.20 0.1181 1.80 0.0708 30o 1.90 0.0784 8mm tape width 0 26 0 0102 3.10 0.1220 1 45 0 0570 Direction of unreel 1 30 0 0511 Part no. suffixed TA = 3k devices per 7" reel mm inches 0 015 0 0059 SOT23-6 0 50 0 019 0 95 0 037 Direction of unreel Pin 1 3 20 1 80 0 1181 0 0708 1 90 0 074 3 10 0 1220 30 0 26 0 0102 Pin 1 8mm tape width Part no. suffixed TA = 3k devices per 7" reel 1 30 1 45 0 0511 0 0570 Part no. suffixed TC = 10k devices per 13" reel mm 0 15 inches 0 0059 SOT323 0 40 0 0158 0 65 0 0256 0 425 0 0167 2 40 0 0945 0 40 0 0158 Direction of unreel 0 30 0 0118 1 35 0 0532 9.0 2 20 0 0866 1 10 0 0394 0 26 0 0102 Part no. suffixed TA = 3k devices per 7" reel Part no. suffixed TC = 10k devices per 13" reel mm inches 0 10 0 0039 79 Package information 8mm tape width 1 30 0 0512 SOT89 Direction of unreel 4 60 1 60 0 181 0 063 1 83 0 44 0 072 0 017 2 60 0 102 4 25 0 167 12mm tape width Part no. suffixed TA = 1k devices per 7" reel mm inches 0 48 0 019 Part no. suffixed TC = 4k devices per 13" reel TO220 4 82 0 189 10 66 0 419 1 39 0 055 3 42 0 134 6 85 0 270 16 51 0 650 4 08 0 160 Delivered in tubes - 50 units per tube 6 35 0 250 14 73 0 580 0 50 0 020 1 01 0 040 1 77 0 070 2 92 0 115 2 79 0 110 mm inches 5 33 0 210 TSOT23-5 0 45 0 0177 0 95 0 0374 0 25 0 010 0 50 0 0196 Direction of unreel 2.80 0.110 1.60 0.062 12o 1.90 0.0784 1 00 0 0393 8mm tape width 0 20 0 0078 2.90 0.114 Part no. suffixed TA = 3k devices per 7" reel 0 90 0 0354 mm inches 0 10 0 0039 TDFN533 1.10 0.0433 0.80 0.0315 3.00 0.1181 0.20 0.0079 0 50 0 0197 0 95 0 0374 3.00 0.1181 0 45 0 0177 0.05 0.002 0 95 0 0374 0 55 0 0216 0 20 0 0079 1 05 0 0413 2.10 0.0827 12mm tape width mm inches Part no. suffixed TC = 3k devices per 7" reel 80 9.0 Package information 81 Thermal data Section 9.1 DFN322 Derating curves PD- Power Dissipation (W) Thermal Resistance (C/W) 1.5W devices Tamb=25C 1oz Cu 10sqcm 80 60 D=0.5 40 D=0.2 Single Pulse 20 D=0.05 D=0.1 0 100 1m 10m 100m 1 10 100 1k 3.5 Tamb =25C 3.0 2.5 2oz Cu 65sqcm 2.0 1.5 1oz Cu 10sqcm 1.0 0.5 0.0 0 25 50 75 100 125 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=83C/W maximum. Mounted on an FR4 pcb with 32mm x 32mm coverage of single sided 1oz weight copper in still air conditions. Single die on 1.5W devices Derating curve Thermal Resistance (C/W) PD- Power Dissipation (W) DFN832 Tamb=25C 1oz Cu 8sqcm One die 80 60 D=0.5 40 D=0.2 Single Pulse 20 D=0.05 D=0.1 0 100 1m 10m 100m 1 10 100 3.5 Tamb =25C 2oz Cu 85sqcm Two die 3.0 2.5 2oz Cu 8sqcm One die 2.0 1.5 1oz Cu 10sqcm Two die 1.0 0.5 1oz Cu 10sqcm One die 0.0 25 1k 50 75 100 125 150 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=83C/W maximum. Mounted on an FR4 pcb with 28mm x 28mm coverage of single sided 2oz weight copper in still air conditions. E-Line 150 9145 Derating curves PD- Power Dissipation (W) Thermal Resistance ( C/W) 1.2W devices D.C. t1 D=t1/tP 100 tP D=0.6 50 D=0.2 0 100 D=0.1 D=0.05 Single Pulse 1m 10m 100m 1 10 100 4.0 3.0 Case temperature 2.0 Ambient temperature 1.0 -40 0 40 80 120 160 TA - Ambient Temperature (C) Pulse Width (s) j-a=150C/W maximum. Through hole mounted on an FR4 pcb with a 25mm x 25mm coverage of single sided 1oz weight copper, in still air conditions, leg length 4mm. 82 200 DPAK Derating curves 60 PD- Power Dissipation (W) Thermal Resistance (C/W) 2.1W devices Tamb =25C 25mm x 25mm 1oz FR4 50 40 D=0.5 30 20 D=0.1 D=0.2 10 D=0.05 Single Pulse 0 100 1m 10m 100m 1 10 100 4.0 50mm x 50mm 2oz FR4 3.5 3.0 25mm x 25mm 1oz FR4 2.5 2.0 50mm x 50mm 1oz FR4 1.5 1.0 0.5 0.0 1k 0 20 40 60 80 100 120 140 160 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=59C/W maximum. Mounted on an FR4 pcb of 25mm x 25mm x 1.6mm with high coverage of single sided 1oz weight copper, in still air conditions. Thermal Resistance (C/W) 3.9W devices 30 Tamb =25C 50mm x 50mm 2oz FR4 25 20 D=0.5 15 10 D=0.1 D=0.2 D=0.05 5 Single Pulse 0 100 1m 10m 100m 1 10 100 1k Pulse Width (s) j-a=32C/W maximum. Mounted on an FR4 pcb of 50mm x 50mm x 1.6mm with high coverage of single sided 2oz weight copper, in still air conditions. MSOP8 PD - Power Dissipation (W) Derating curve 140 120 100 80 D=0.5 60 40 Single Pulse D=0.2 D=0.05 20 D=0.1 0 100 1m 10m 100m 1 10 100 1k 1.0 0.8 0.6 0.4 0.2 9.0 0.0 0 20 40 60 80 100 120 140 160 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=143C/W maximum. One active die. Mounted on 25mm x 25mm x 1.6mm FR4 pcb with high coverage of single sided 1oz weight copper, in still air conditions. 83 Package information Thermal Resistance ( C/W) One active die 0.87W devices SM8 dual Both die on equally, total power 2.75W Single device on 56 Thermal Resistance (C/W) Thermal Resistance (C/W) Single die on 2.25W devices D=1(D.C.) t1 50 40 D=t1 tp tp D=0.5 30 D=0.2 D=0.1 D=0.05 20 10 Single Pulse 0 100 1m 10m 100m 1 10 100 Both devices on 46 D=1(D.C.) 40 t1 D=t1 tp tp 30 D=0.5 20 D=0.2 D=0.1 D=0.05 10 Single Pulse 0 100 1m 10m 100m 1 10 100 Pulse Width (s) Pulse Width (s) j-a=45.6C/W maximum. j-a=55.6C/W maximum. PD - Power Dissipation (W) Derating curves 4.0 3.0 2.75W 2.0 2.25W 1.0 0 0 20 40 60 80 100 120 140 160 TA - Ambient Temperature (C) Mounted on a 50mm x 50mm x 1.6mm FR4 pcb with a high coverage of single sided 2oz weight copper, in still air conditions. 330mW devices Derating curve Thermal Resistance (C/W) PD- Power Dissipation (W) SOD323 400 D=t1 tp t1 300 tp 200 D=1 D=0.5 D=0.2 100 D=0.1 D=0.05 Single Pulse 0 100 1m 10m 100m 1 10 100 350 300 250 200 150 100 50 0 0 20 40 60 80 100 120 140 160 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=380C/W. Mounted on 10mm x 8mm x 1.6mm FR4 pcb with high coverage of 1oz weight copper in still air conditions. 84 360mW devices Derating curve Thermal Resistance (C/W) P - Power Dissipation (W) SOD523 350 300 250 D=0.5 200 150 Single Pulse D=0.2 100 D=0.05 50 D=0.1 0 100 1m 10m 100m 1 10 100 1k 0.40 0.35 0.30 0.25 0.20 0.15 0.10 0.05 0.00 Pulse Width (s) 0 20 40 60 80 100 120 140 160 Tamb - Ambient Temperature (C) j-a=350C/W. Mounted on 25mm x 25mm x 1.6mm FR4 pcb with high coverage of 1oz weight copper, in still air conditions. Single die on 1.25W devices Both die on equally, total power 1.75W Thermal Resistance (C/W) Thermal Resistance (C/W) SO8 dual 110 100 90 Tamb=25C One active die 80 70 60 D=0.5 50 40 Single Pulse D=0.2 30 20 D=0.05 10 0 100 D=0.1 1m 10m 100m 10 1 1k 100 70 Tamb=25C 60 50 40 D=0.5 30 20 Single Pulse D=0.2 D=0.05 10 D=0.1 0 100 1m 10m 100m 1 10 100 1k Pulse Width (s) Pulse Width (s) j-a=100C/W maximum. j-a=69C/W maximum. 2.0 Two active die 1.5 One active die 1.0 0.5 0.0 9.0 0 25 50 75 100 125 150 Tamb - Ambient Temperature (C) Mounted on 25mm x 25mm x 1.6mm FR4 pcb with full coverage of single sided 1oz weight copper, in still air conditions. 85 Package information PD- Power Dissipation (W) Derating curves SOT223 Derating curve 70 PD- Power Dissipation (W) Thermal Resistance (C/W) 2W devices Tamb =25C 50mm x 50mm, 1oz 60 50 40 D=0.5 30 Single Pulse 20 D=0.2 D=0.05 10 D=0.1 0 100 1m 10m 100m 1 10 100 2.0 1.5 1.0 0.5 0.0 1k 0 20 40 60 80 100 120 140 160 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=62.5C/W maximum. Mounted on an FR4 pcb with 50mm x 50mm of single sided 1oz weight copper, in still air conditions. Derating curve PD- Power Dissipation (W) Thermal Resistance (C/W) 3W devices Tamb =25C 50mm x 50mm, 2oz 40 30 D=0.5 20 Single Pulse 10 D=0.2 D=0.05 D=0.1 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0.0 0 100 1m 10m 100m 1 10 100 0 1k 20 40 60 80 100 120 140 160 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=41.7C/W maximum. Mounted on 50mm x 50mm single sided 2oz weight copper, in still air conditions. SOT23-6 Derating curve 120 PD- Power Dissipation (W) Thermal Resistance ( C/W) 1.1W devices 100 80 D=0.5 60 40 D=0.2 Single Pulse 20 D=0.05 D=0.1 0 100 1m 10m 100m 1 10 100 1k Pulse Width (s) 1.2 1.0 0.8 0.6 0.4 0.2 0.0 0 20 40 60 80 100 120 140 160 Tamb - Ambient Temperature (C) j-a=113C/W maximum. Mounted on 25mm x 25mm x 1.6mm FR4 pcb with high coverage of single sided 1oz copper, in still air conditions. 86 SOT23 Derating curve PD- Power Dissipation (W) Thermal Resistance (C/W) 350mW devices 400 Tamb =25C 25mm x 25mm, 1oz 350 300 250 200 D=0.5 150 100 Single Pulse D=0.05 D=0.2 D=0.1 50 0.4 0.3 0.2 0.1 0.0 0 100 1m 10m 100m 1 10 100 0 1k 20 40 60 80 100 120 140 160 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=350C/W maximum. Mounted on a 25mm x 25mm x 1.6mm FR4 pcb with high coverage of single sided 1oz weight copper, in still air conditions. 200 Derating curve PD- Power Dissipation (W) Thermal Resistance (C/W) 625mW devices Tamb =25C 25mm x 25mm, 1oz 150 D=0.5 100 Single Pulse 50 D=0.2 D=0.05 D=0.1 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 0 100 1m 10m 100m 1 10 100 0 1k 20 40 60 80 100 120 140 160 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=200C/W maximum. Mounted on a 25mm x 25mm x 1.6mm FR4 pcb with high coverage of single sided 1oz weight copper, in still air conditions. Derating curves PD- Power Dissipation (W) Thermal Resistance (C/W) 1.25W devices 100 Tamb =25C 50mm x 50mm, 2oz 80 60 D=0.5 40 Single Pulse D=0.2 20 D=0.05 D=0.1 0 1m 10m 100m 1 10 100 1.2 50mm x 50mm, 2oz 1.0 0.8 15mm x 15mm, 1oz 0.6 0.4 0.2 0.0 0 20 40 60 80 100 120 140 160 9.0 1k Tamb - Ambient Temperature (C) Pulse Width (s) j-a=100C/W maximum. Mounted on a 50mm x 50mm x 1.6mm FR4 pcb with high coverage of single sided 2oz weight copper, in still air conditions. 87 Package information 100 1.4 SOT323 Derating curve 350 300 PD- Power Dissipation (W) Thermal Resistance (C/W) 385mW devices D=t1 tp t1 250 tp 200 DC=1 DC=0.5 DC=0.2 DC=0.1 DC=0.05 Single Pulse 150 100 50 0 100 1m 10m 100m 10 1 400m 385mW 200m 0 0 100 50 100 150 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=325C/W Mounted on 10mm x 8mm x 1.6mm FR4 pcb with high coverage of 1oz weight copper in still air conditions. SOT89 Derating curve 1.2 120 PD- Power Dissipation (W) Thermal Resistance (C/W) 1W devices D=1 D=t1 tp t1 100 tP 80 D=0.5 60 40 20 D=0.2 D=0.05 D=0.1 0 100 Single Pulse 1m 10m 100m 1 10 100 1.0 0.8 0.6 0.4 0.2 0 0 20 40 60 80 100 120 140 160 Tamb - Ambient Temperature (C) Pulse Width (s) j-a=125C/W maximum, j-tab=10C/W typical. Mounted on a 15mm x 15mm x 1.6mm FR4 pcb with a high coverage of single sided 1oz weight copper, in still air conditions. 88 SOT23F Derating curve 1.6 80 Max Power Dissipation (W) Thermal Resistance ( C/W) Translent Thermal Impedance Tamb =25 C 70 See note (c) 60 50 D=0.5 40 30 Single Pulse D=0.2 20 D=0.05 10 D=0.1 0 100 1m 10m 100m 1 10 100 1k Pulse Width (s) see note (c) 1.4 1.2 1.0 see note (b) 0.8 0.6 0.4 0.2 see note (a) 0.0 0 20 40 60 80 100 120 140 160 Temperature (C) (a) For a device surface mounted on 15mm x 15mm x 1.6mm FR4 PCB with high coverage of single sided 1oz copper, in still air conditions. (b) Mounted on 25mm x 25mm x 1.6mm FR4 PCB with a high coverage of single sided 2oz copper in still air conditions. (c) Mounted on 50mm x 50mm x 1.6mm FR4 PCB with a high coverage of single sided 2oz copper in still air conditions. 9.0 Package information 89 Alphanumeric index Section 10.0 2N7002 ............................................45 B Back-Off Diodes ..............................40 BAT1000 ..........................................38 BAT54 ..............................................38 BAT54A............................................38 BAT54C............................................38 BAT54S ............................................38 BAT750 ............................................38 BCV47..............................................28 BCV49..............................................28 BCW66H..........................................17 BCW68H..........................................19 BCX38C ...........................................28 BCX5316..........................................22 BCX5616..........................................21 BCX6825..........................................12 BCX6925..........................................15 BS107P............................................49 BS250F ............................................44 BS250P............................................44 BSP75G ...........................................47 BSP75N ...........................................47 BSR33..............................................22 BSR43..............................................21 BSS123............................................48 BSS123A .........................................48 BSS138............................................43 BSS84..............................................44 BST39 ..............................................26 BST52 ..............................................28 BYP53/54.........................................40 BYP57/58.........................................40 BYY53/54.........................................40 BYY57/58.........................................40 BYY57A/58A ....................................40 BZP61/62 .........................................40 BZP63/64 .........................................40 BZV61/62 .........................................40 BZV63/64 .........................................40 F FCX1047A........................................10 FCX1051A........................................16 FCX1053A........................................20 FCX1147A........................................13 FCX1149A........................................15 FCX1151A........................................18 FCX458 ............................................26 FCX491 ............................................20 FCX491A..........................................16 FCX493 ............................................21 FCX495 ............................................24 FCX555 ............................................25 FCX558 ............................................27 FCX589 ............................................18 FCX591 ............................................22 FCX591A..........................................19 FCX593 ............................................23 FCX596 ............................................25 FCX605 ............................................28 FCX617 ............................................10 FCX619 ............................................17 FCX658A..........................................26 FCX688B..........................................10 FCX690B..........................................16 FCX705 ............................................28 FCX717 ............................................13 FCX718 ............................................14 FCX789A..........................................15 FCX790A..........................................19 FMMT38C .......................................28 FMMT413........................................28 FMMT415........................................28 FMMT417........................................28 FMMT449........................................16 FMMT451........................................20 FMMT455........................................24 FMMT458........................................26 FMMT459........................................26 FMMT489........................................16 FMMT491........................................20 FMMT491A .....................................16 FMMT493........................................21 FMMT493A .....................................20 FMMT494........................................24 FMMT495........................................24 FMMT497........................................26 FMMT549........................................18 FMMT549A .....................................18 90 FMMT551........................................22 FMMT555........................................25 FMMT558........................................27 FMMT560........................................27 FMMT589........................................18 FMMT591........................................22 FMMT591A .....................................19 FMMT593........................................23 FMMT596........................................25 FMMT597........................................27 FMMT614........................................28 FMMT617........................................10 FMMT618........................................11 FMMT619........................................17 FMMT620........................................21 FMMT624........................................24 FMMT625........................................24 FMMT634........................................28 FMMT6517......................................26 FMMT6520......................................27 FMMT717........................................13 FMMT718........................................15 FMMT720........................................19 FMMT722........................................22 FMMT723........................................23 FMMT734........................................28 FMMTA06........................................21 FMMTA13........................................28 FMMTA14........................................28 FMMTA42........................................26 FMMTA56........................................23 FMMTA92........................................27 FMMTL618......................................11 FMMTL619......................................17 FMMTL717......................................13 FMMTL718......................................15 FZT1047A ........................................10 FZT1048A ........................................10 FZT1049A ........................................12 FZT1051A ........................................16 FZT1053A ........................................20 FZT1147A ........................................13 FZT1149A ........................................15 FZT1151A ........................................18 FZT458.............................................26 FZT489.............................................16 FZT491.............................................20 FZT491A ..........................................16 FZT493.............................................21 FZT549.............................................18 FZT558.............................................27 FZT560.............................................27 FZT589.............................................18 FZT591.............................................22 FZT591A ..........................................19 FZT593.............................................23 FZT600.............................................28 FZT600B ..........................................28 FZT603.............................................28 FZT605.............................................28 FZT649.............................................12 FZT651.............................................20 FZT653.............................................21 FZT655.............................................24 FZT657.............................................26 FZT658.............................................26 FZT688B ..........................................10 FZT689B ..........................................11 FZT690B ..........................................16 FZT692B ..........................................20 FZT694B ..........................................24 FZT696B ..........................................24 FZT705.............................................28 FZT717.............................................13 FZT749.............................................15 FZT751.............................................22 FZT753.............................................23 FZT755.............................................25 FZT757.............................................27 FZT758.............................................27 FZT788B ..........................................14 FZT789A ..........................................15 FZT790A ..........................................18 FZT792A ..........................................22 FZT795A ..........................................25 FZT796A ..........................................25 FZT849.............................................16 FZT851.............................................20 FZT853.............................................21 FZT855.............................................24 FZT857.............................................26 FZT869.............................................12 FZT948.............................................14 FZT949.............................................18 FZT951.............................................22 FZT953.............................................23 FZT955.............................................25 FZT956.............................................25 FZT957.............................................27 FZT958.............................................27 FZT968.............................................13 FZTA14 ............................................28 FZTA42 ............................................26 FZTA92 ............................................27 L LM4040-2.5 .....................................61 LM4040-3.0 .....................................61 LM4040-5.0 .....................................61 LM4041 ...........................................61 R Rectifier Stacks................................40 S SXTA42 ............................................26 T TLV431.............................................59 V VN10LP............................................45 Z ZC831B............................................40 ZC832B............................................40 ZC833B............................................40 ZC834B............................................40 ZC835B............................................40 ZC836B............................................40 ZC930 ..............................................39 ZC931 ..............................................39 ZC932 ..............................................39 ZC933 ..............................................39 ZC933A............................................39 ZC934 ..............................................39 ZC934A............................................39 ZDT1048 ..........................................30 ZDT1049 ..........................................30 ZDT1053 ..........................................30 ZDT6718 ..........................................30 ZDT6753 ..........................................29 ZDT6790 ..........................................29 ZDT694 ............................................30 ZDT749 ............................................30 ZDT751 ............................................30 ZDT795A..........................................30 ZHB6718..........................................29 ZHB6790..........................................29 ZHB6792..........................................29 ZHCS1000 .......................................38 ZHCS1006 .......................................38 ZHCS2000 .......................................38 ZHCS350 .........................................38 ZHCS400 .........................................38 ZHCS500 .........................................38 ZHCS506 .........................................38 ZHCS750 .........................................38 ZHCS756 .........................................38 ZHT431 ............................................59 ZLDO330 .........................................66 ZLDO500 .........................................66 ZLLS1000 ........................................38 ZLLS2000 ........................................38 ZLLS350 ..........................................38 ZLLS400 ..........................................38 ZLLS410 ..........................................38 ZLLS500 ..........................................38 ZMR250...........................................64 ZMR330...........................................64 ZMR500...........................................64 ZMT32 ............................................75 ZMV832B.........................................40 ZMV833B.........................................40 ZMV930 ...........................................39 ZMV931 ...........................................39 ZMV932 ...........................................39 ZMV933 ...........................................39 ZMV933A.........................................39 ZMV934 ...........................................39 ZMV934A.........................................39 ZMY20M .........................................75 ZMZ20M .........................................75 ZNI1000 ..........................................74 ZR285-2.5 ........................................61 ZR4040-2.5 ......................................61 ZR4040-4.1 ......................................61 ZR4040-5 .........................................61 ZR431 ..............................................59 ZR431L ............................................59 ZRB500............................................60 ZRC250............................................60 ZRC330............................................60 ZRC400............................................60 ZRC500............................................60 ZSD100............................................74 ZSM300 ...........................................73 ZSM560 ...........................................73 ZSR300 ............................................65 ZSR330 ............................................65 ZSR500 ............................................65 ZSR1000 ..........................................65 ZTL431.............................................59 ZTL432.............................................59 ZTX1048A ........................................10 ZTX1049A ........................................12 ZTX1051A ........................................16 ZTX1053A ........................................20 ZTX1147A ........................................13 ZTX1149A ........................................15 ZTX415 ............................................28 ZTX449 ............................................16 ZTX450 ............................................17 ZTX451 ............................................20 10.0 Alphanumeric index 91 ZTX453 ............................................21 ZTX455 ............................................24 ZTX457 ............................................26 ZTX458 ............................................26 ZTX549 ............................................18 ZTX550 ............................................19 ZTX551 ............................................22 ZTX553 ............................................23 ZTX558 ............................................27 ZTX560 ............................................27 ZTX601 ............................................28 ZTX601B ..........................................28 ZTX603 ............................................28 ZTX605 ............................................28 ZTX614 ............................................28 ZTX618 ............................................11 ZTX649 ............................................12 ZTX651 ............................................20 ZTX653 ............................................21 ZTX657 ............................................26 ZTX658 ............................................26 ZTX688B ..........................................10 ZTX689B ..........................................11 ZTX690B ..........................................17 ZTX692B ..........................................20 ZTX694B ..........................................24 ZTX696B ..........................................24 ZTX705 ............................................28 ZTX718 ............................................14 ZTX749 ............................................15 ZTX751 ............................................22 ZTX753 ............................................23 ZTX757 ............................................27 ZTX758 ............................................27 ZTX788A ..........................................14 ZTX788B ..........................................14 ZTX789A ..........................................15 ZTX790A ..........................................19 ZTX792A ..........................................22 ZTX795A ..........................................25 ZTX796A ..........................................25 ZTX849 ............................................16 ZTX851 ............................................20 ZTX853 ............................................21 ZTX855 ............................................24 ZTX857 ............................................26 ZTX869 ............................................12 ZTX948 ............................................14 ZTX949 ............................................18 ZTX951 ............................................22 ZTX953 ............................................23 ZTX955 ............................................25 ZTX956 ............................................25 ZTX957 ............................................27 ZTX958 ............................................27 ZTX968 ............................................13 ZUMT491.........................................20 ZUMT591.........................................22 ZUMT617.........................................10 ZUMT618.........................................11 ZUMT619.........................................17 ZUMT717.........................................13 ZUMT718.........................................15 ZUMT720.........................................19 ZVN0124A .......................................49 ZVN0545A .......................................49 ZVN0545G .......................................49 ZVN2106A .......................................45 ZVN2106G .......................................45 ZVN2110A .......................................48 ZVN2110G .......................................48 ZVN2120A .......................................49 ZVN2120G .......................................49 ZVN3306A .......................................45 ZVN3306F........................................45 ZVN3310A .......................................48 ZVN3310F........................................48 ZVN3320A .......................................49 ZVN3320F........................................49 ZVN4106F........................................45 ZVN4206A .......................................45 ZVN4206AV .....................................45 ZVN4206G .......................................45 ZVN4206GV .....................................45 ZVN4210A .......................................48 ZVN4210G .......................................48 ZVN4306A .......................................45 ZVN4306AV .....................................45 ZVN4306G .......................................45 ZVN4306GV .....................................45 ZVN4310A .......................................48 ZVN4310G .......................................48 ZVN4424A .......................................49 ZVN4424G .......................................49 ZVN4424Z........................................49 ZVN4525E6......................................49 ZVN4525G .......................................49 ZVN4525Z........................................49 ZVNL110A .......................................48 ZVNL110G .......................................48 ZVNL120A .......................................49 ZVNL120G .......................................49 ZVP0545A........................................50 ZVP0545G........................................50 ZVP1320F ........................................50 ZVP2106A........................................46 ZVP2106G........................................46 ZVP2110A........................................49 ZVP2110G........................................49 ZVP2120A........................................50 ZVP2120G........................................50 ZVP3306A........................................46 92 ZVP3306F ........................................46 ZVP3310A........................................49 ZVP3310F ........................................49 ZVP4105A........................................44 ZVP4424A........................................50 ZVP4424G........................................50 ZVP4424Z ........................................50 ZVP4525E6 ......................................50 ZVP4525G........................................50 ZVP4525Z ........................................50 ZX3CD1S1M832..............................31 ZX3CD2S1M832..............................31 ZX3CD3S1M832..............................31 ZX3CDBS1M832 .............................31 ZX5T2E6 ..........................................14 ZX5T3Z ............................................18 ZX5T851A ........................................20 ZX5T851G........................................20 ZX5T853G........................................21 ZX5T853Z ........................................21 ZX5T949G........................................18 ZX5T951G........................................22 ZX5T953G........................................23 ZX5T955G........................................25 ZX5T955Z ........................................25 ZX5T1951G......................................22 ZXCL250 ..........................................67 ZXCL280 ..........................................67 ZXCL300 ..........................................67 ZXCL330 ..........................................67 ZXCL5213V25..................................67 ZXCL5213V28..................................67 ZXCL5213V30..................................67 ZXCL5213V33..................................67 ZXCT1008 ........................................54 ZXCT1009 ........................................54 ZXCT1010 ........................................54 ZXCT1011 ........................................54 ZXCT1012 ........................................54 ZXCT1020 ........................................54 ZXCT1021 ........................................56 ZXCT1022 ........................................56 ZXCT1030 ........................................56 ZXCT1032 ........................................56 ZXCT1041 ........................................56 ZXCT1050 ........................................54 ZXCT1051 ........................................56 ZXCT1080 ........................................56 ZXCT1081 ........................................56 ZXGD3001E6 ...................................32 ZXGD3002E6 ...................................32 ZXGD3003E6 ...................................32 ZXGD3004E6 ...................................32 ZXLD1601........................................69 ZXLD1615........................................69 ZM33164-3 ......................................73 ZXM41N10F ....................................48 ZXM61N02F ....................................42 ZXM61N03F ....................................43 ZXM61P02F.....................................42 ZXM61P03F.....................................44 ZXM62N02E6 ..................................42 ZXM62N03G....................................43 ZXM62P02E6...................................42 ZXM62P03E6...................................44 ZXM62P03G ....................................44 ZXM64N02X ....................................42 ZXM64N035L3 ................................43 ZXM64P02X.....................................42 ZXM64P035L3.................................44 ZXM64P03X.....................................44 ZXMC3A17DN8 ...............................44 ZXMC3AM832.................................44 ZXMC3F31DN8 ...............................44 ZXMC4559DN8 ...............................46 ZXMC4A16DN8 ...............................44 ZXMC6A09DN8 ...............................46 ZXMD63C02X..................................43 ZXMD63C03X..................................44 ZXMD63N02X..................................42 ZXMD63N03X..................................43 ZXMD63P02X ..................................42 ZXMD63P03X ..................................44 ZXMHC10A07T8..............................49 ZXMHC3A01T8................................44 ZXMHC6A07T8................................46 ZXMHN6A07T8 ...............................46 ZXMN0545FF ..................................49 ZXMN0545G4..................................49 ZXMN10A07F ..................................48 ZXMN10A07Z ..................................48 ZXMN10A08DN8.............................48 ZXMN10A08E6................................48 ZXMN10A08G .................................48 ZXMN10A09K..................................48 ZXMN10A11G .................................48 ZXMN10A11K..................................48 ZXMN10A25G .................................48 ZXMN10A25K..................................48 ZXMN10B08E6................................48 ZXMN20866DE6..............................42 ZXMN2A01E6..................................42 ZXMN2A01F ....................................42 ZXMN2A02X8..................................42 ZXMN2A03E6..................................42 ZXMN2A04DN8...............................42 ZXMN2A14F ....................................42 ZXMN2AM832.................................42 ZXMN2B01F ....................................42 ZXMN2B03E6..................................42 ZXMN2B14FH .................................42 ZXMN2F30FH..................................42 ZXMN2F34FH..................................42 ZXMN2F34MA.................................42 ZXMN3A01E6..................................43 ZXMN3A01F ....................................43 ZXMN3A02X8..................................43 ZXMN3A03E6..................................43 ZXMN3A04DN8...............................43 ZXMN3A04K....................................43 ZXMN3A06DN8...............................43 ZXMN3A14F ....................................43 ZXMN3AM832.................................43 ZXMN3B01F ....................................43 ZXMN3B14F ....................................43 ZXMN3F30FH..................................43 ZXMN3F318DN8 .............................43 ZXMN3F31DN8 ...............................43 ZXMN3G32DN8...............................43 ZXMN4A06G ...................................43 ZXMN4A06K....................................43 ZXMN6A07F ....................................45 ZXMN6A07Z ....................................45 ZXMN6A08E6..................................45 ZXMN6A08G ...................................45 ZXMN6A09DN8...............................45 ZXMN6A09G ...................................45 ZXMN6A09K....................................45 ZXMN6A11DN8...............................45 ZXMN6A11G ...................................45 ZXMN6A11Z ....................................45 ZXMN6A25DN8...............................45 ZXMN6A25G ...................................45 ZXMN6A25K....................................45 ZXMN6A25N8 .................................45 ZXMN7A11G ...................................45 ZXMN7A11K....................................45 ZXMP10A13F ..................................49 ZXMP10A16K ..................................49 ZXMP10A17E6 ................................49 ZXMP10A17K ..................................49 ZXMP10A18G..................................49 ZXMP10A18K ..................................49 ZXMP2120E5...................................50 ZXMP2120FF...................................50 ZXMP2120G4 ..................................50 ZXMP3A13F ....................................44 ZXMP3A16DN8 ...............................44 ZXMP3A16G....................................44 ZXMP3A16N8..................................44 ZXMP3A17DN8 ...............................44 ZXMP3A17E6 ..................................44 ZXMP3F30FH ..................................44 ZXMP3F36N8 ..................................44 ZXMP3F37DN8................................44 ZXMP3G35N8..................................44 ZXMP4A16G....................................44 ZXMP4A16K ....................................44 ZXMP6A13F ....................................46 ZXMP6A13G....................................46 ZXMP6A16DN8 ...............................46 ZXMP6A16K ....................................46 ZXMP6A17DN8 ...............................46 ZXMP6A17E6 ..................................46 ZXMP6A17G....................................46 ZXMP6A18DN8 ...............................46 ZXMP6A18K ....................................46 ZXMP7A17G....................................46 ZXMP7A17K ....................................46 ZXMS6001G ....................................47 ZXMS6002G ....................................47 ZXMS6003G ....................................47 ZXMS6004FF...................................47 ZXMS6005G ....................................47 ZXRE060..........................................59 ZXRE1004........................................60 ZXRE125..........................................60 ZXRE4041........................................61 ZXSB1000QT8 .................................39 ZXSBMR16PT8................................39 ZXSC100..........................................70 ZXSC410..........................................70 ZXSC420..........................................70 ZXSC440..........................................70 ZXSD500E6 .....................................38 ZXSDS2M832 ..................................38 ZXT1053AK......................................20 ZXT10N15DE6 .................................10 ZXT10N20DE6 .................................11 ZXT10N50DE6 .................................17 ZXT10P12DE6 .................................13 ZXT10P20DE6 .................................15 ZXT10P40DE6 .................................19 ZXT11N15DF ...................................10 ZXT11N20DF ...................................11 ZXT12N20DX ...................................30 ZXT12N50DX ...................................30 ZXT12P12DX ...................................30 ZXT12P40DX ...................................30 ZXT13N15DE6 .................................10 ZXT13N20DE6 .................................11 ZXT13N50DE6 .................................17 ZXT13P12DE6 .................................13 ZXT13P20DE6 .................................14 ZXT13P40DE6 .................................18 ZXT1M322 .......................................13 ZXT2M322 .......................................14 ZXT3M322 .......................................18 ZXT4M322 .......................................22 ZXT690BK........................................16 ZXT790AK........................................18 ZXT849K ..........................................16 ZXT951K ..........................................22 ZXT953K ..........................................23 10.0 Alphanumeric index 93 ZXTAM322.......................................10 ZXTBM322.......................................11 ZXTC2045E6....................................29 ZXTC2061E6....................................29 ZXTC2062E6....................................29 ZXTC2063E6....................................29 ZXTCM322.......................................17 ZXTD09N50DE6 ..............................30 ZXTD1M832 ....................................30 ZXTD2M832 ....................................30 ZXTD2075E6....................................30 ZXTD4591AM832 ............................29 ZXTD4591E6....................................29 ZXTD6717E6....................................29 ZXTDAM832 ....................................30 ZXTDA1M832 ..................................29 ZXTDBM832 ....................................30 ZXTDB2M832 ..................................29 ZXTDCM832 ....................................30 ZXTDC3M832 ..................................29 ZXTDE4M832 ..................................29 ZXTEM322.......................................21 ZXTN04120HFF ...............................28 ZXTN07012EFF................................10 ZXTN07045EFF................................16 ZXTN08400BFF ...............................26 ZXTN19020CFF ...............................10 ZXTN19020DFF ...............................11 ZXTN19020DG.................................10 ZXTN19020DZ .................................11 ZXTN19055DZ .................................20 ZXTN19060CFF ...............................20 ZXTN19060CG.................................20 ZXTN19100CFF ...............................21 ZXTN19100CG.................................21 ZXTN19100CZ .................................21 ZXTN19100DG.................................21 ZXTN19100DZ .................................21 ZXTN2005G .....................................12 ZXTN2005Z......................................12 ZXTN2007G .....................................16 ZXTN2007Z......................................16 ZXTN2010A .....................................20 ZXTN2010G .....................................20 ZXTN2010Z......................................20 ZXTN2011G .....................................21 ZXTN2011Z......................................21 ZXTN2018F......................................20 ZXTN2020F......................................21 ZXTN2031F......................................17 ZXTN2038F......................................20 ZXTN2040F......................................16 ZXTN23015CFH...............................10 ZXTN25012EFH ...............................10 ZXTN25012EFL................................10 ZXTN25012EZ..................................10 ZXTN25015DFH...............................10 ZXTN25020BFH...............................11 ZXTN25020CFH...............................11 ZXTN25020DFH...............................11 ZXTN25020DFL ...............................11 ZXTN25020DG.................................11 ZXTN25020DZ .................................11 ZXTN25040DFH...............................16 ZXTN25040DFL ...............................16 ZXTN25040DZ .................................16 ZXTN25050DFH...............................17 ZXTN25060BFH...............................20 ZXTN25060BZ .................................20 ZXTN25100BFH...............................21 ZXTN25100DFH...............................21 ZXTN5551EFL..................................24 ZXTN5551EG ...................................24 ZXTN5551EZ....................................24 ZXTN5551FL....................................24 ZXTN5551G .....................................24 ZXTN5551Z......................................24 ZXTP05120HFF................................28 ZXTP03200BG .................................25 ZXTP5401EFL ..................................25 ZXTP5401EG ...................................25 ZXTP5401EZ ....................................25 ZXTP5401FL ....................................25 ZXTP5401G......................................25 ZXTP5401Z ......................................25 ZXTP07012EFF ................................13 ZXTP07040DFF................................18 ZXTP08400BFF................................27 ZXTP19020CFF................................14 ZXTP19020DFF................................14 ZXTP19020DG .................................14 ZXTP19020DZ..................................14 ZXTP19060CFF................................22 ZXTP19060CG .................................22 ZXTP19060CZ..................................22 ZXTP19100CFF................................23 ZXTP19100CG .................................23 ZXTP19100CZ..................................23 ZXTP2006E6 ....................................14 ZXTP2008G......................................18 ZXTP2008Z ......................................18 ZXTP2009Z ......................................18 ZXTP2012A......................................22 ZXTP2012G......................................22 ZXTP2012Z ......................................22 ZXTP2013G......................................23 ZXTP2013Z ......................................23 ZXTP2014G......................................25 ZXTP2014Z ......................................25 ZXTP2025F ......................................19 ZXTP2027F ......................................22 ZXTP2029F ......................................23 94 ZXTP2039F ......................................22 ZXTP2041F ......................................19 ZXTP23015CFH ...............................13 ZXTP23140BFH ...............................25 ZXTP25012EFH ...............................13 ZXTP25012EZ ..................................13 ZXTP25015DFH ...............................13 ZXTP25020BFH ...............................14 ZXTP25020CFF................................14 ZXTP25020CFH ...............................14 ZXTP25020DFH ...............................14 ZXTP25020DFL................................15 ZXTP25020DG .................................14 ZXTP25020DZ..................................14 ZXTP25040DFH ...............................18 ZXTP25040DFL................................19 ZXTP25040DZ..................................18 ZXTP25060BFH ...............................22 ZXTP25100BFH ...............................23 ZXTP25100CFH ...............................23 ZXTP25100CZ..................................23 ZXTP25140BFH ...............................25 Zetex Brochure Covers V2 (Final Artwork):Layout 1 10/3/08 19:39 Page 1 About Zetex Europe Zetex Semiconductors designs and manufactures high performance semiconductor solutions for analog signal processing and the management of power in automotive, communications, consumer and industrial electronics. Zetex GmbH Kustermann-Park Balanstrae 59 D-81541 Munchen Germany Tel: (49) 89 45 49 49 0 Fax: (49) 89 45 49 49 49 Email: europe.sales@zetex.com Meeting the demand for greater power economy, precision and speed in analog circuit design, the broad Zetex product range comprises Smart application specific linear ICs and discrete semiconductor devices in multiple package configurations. A keen advocate of reduction in environmental impact, Zetex parts meet all current legislation with improvements driven by conformance with the ISO14001 environmental standard. For more comprehensive product details and up to the minute information on the complete range of discrete devices visit www.zetex.com. Zetex Inc 700 Veterans Memorial Highway Hauppauge, NY 11788 USA Tel: (1) 631 360 2222 Fax: (1) 631 360 8222 Email: usa.sales@zetex.com Asia Pacific Zetex (Asia) Ltd 3701-04 Metroplaza Tower 1 Hing Fong Road, Kwai Fong Hong Kong Tel: (852) 2610 0611 Fax: (852) 2425 0494 Email: asia.sales@zetex.com Corporate Headquarters Zetex Semiconductors plc Zetex Technology Park Chadderton Oldham, OL9 9LL United Kingdom Tel: (44) 161 622 4444 Fax: (44) 161 622 4446 Email: hq@zetex.com www.zetex.com For international sales offices visit www.zetex.com/offices Zetex products are distributed worldwide. For details see www.zetex.com/salesnetwork SCSELPK5 Version 5.0 Zetex Semiconductors is committed to protecting the environment and compliance with all relevant national and international legislation. Zetex products are fully compliant with the European Union's RoHS directive (2002/95/EC). For further information visit www.zetex.com/leadfree. Discrete and standard IC product guide Emphasizing its ongoing commitment to quality, the standard IC products are supported by an ISO/TS16949:2002 quality management system that drives quality of both product and service from design through to manufacture. This high class of quality is further supplemented with product reliability that meets the requirements of the AECQ standards. Americas Version 5.0 Discrete and standard IC product guide