IRL3714Z IRL3714ZS IRL3714ZL
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1 Applications l High Frequency Synchronous Buck Converters for Computer Processor Power PD IRL3714Z IRL3714ZS IRL3714ZL HEXFET Power MOSFET V DSS R DS(on) max Qg 20V 16m: 4.8nC Benefits l l l Low R DS(on) at 4.5V V GS Ultra-Low Gate Impedance Fully Characterized Avalanche Voltage and Current TO-220AB IRL3714Z D 2 Pak IRL3714ZS TO-262 IRL3714ZL Absolute Maximum Ratings Parameter Max. Units V DS Drain-to-Source Voltage 20 V V GS Gate-to-Source Voltage ± 20 I T C = 25 C Continuous Drain Current, V V 36g A I T C = 0 C Continuous Drain Current, V V 25g I DM Pulsed Drain Current c 140 P C = 25 C Maximum Power Dissipation 35 W P C = 0 C Maximum Power Dissipation Linear Derating Factor W/ C T J Operating Junction and -55 to 175 C T STG Storage Temperature Range Soldering Temperature, for seconds 300 (1.6mm from case) Thermal Resistance Parameter Typ. Max. Units R θjc Junction-to-Case 4.3 C/W R θcs Case-to-Sink, Flat Greased Surface e 0.50 R θja Junction-to-Ambient e 62 R θja Junction-to-Ambient (PCB Mount) h 40 Notes through are on page /8/03
2 T J = 25 C (unless otherwise specified) Parameter Min. Typ. Max. Units BV DSS Drain-to-Source Breakdown Voltage 20 V ΒV DSS / T J Breakdown Voltage Temp. Coefficient mv/ C Reference to 25 C, I D = 1mA R DS(on) Static Drain-to-Source On-Resistance mω V GS = V, I D = 15A e V GS = 4.5V, I D = 12A e V GS(th) Gate Threshold Voltage V V DS = V GS, I D = 250µA V GS(th) / T J Gate Threshold Voltage Coefficient -5.2 mv/ C I DSS Drain-to-Source Leakage Current 1.0 µa V DS = 16V, V GS = 0V 150 V DS = 16V, V GS = 0V, T J = 125 C I GSS Gate-to-Source Forward Leakage 0 na V GS = 20V Gate-to-Source Reverse Leakage -0 V GS = -20V gfs Forward Transconductance 21 S V DS = V, I D = 14A Q g Total Gate Charge Q gs1 Pre-Vth Gate-to-Source Charge 1.7 V DS = V Q gs2 Post-Vth Gate-to-Source Charge 0.80 nc V GS = 4.5V Q gd Gate-to-Drain Charge 1.7 I D = 14A Q godr Gate Charge Overdrive 0.60 See Fig. 16 Q sw Switch Charge (Q gs2 Q gd ) 2.5 Q oss Output Charge 2.7 nc V DS = V, V GS = 0V t d(on) Turn-On Delay Time 6.0 V DD = V, V GS = 4.5V e t r Rise Time 13 I D = 14A t d(off) Turn-Off Delay Time ns Clamped Inductive Load t f Fall Time 5.0 C iss Input Capacitance 550 V GS = 0V C oss Output Capacitance 180 pf V DS = V C rss Reverse Transfer Capacitance 99 ƒ = 1.0MHz Avalanche Characteristics Parameter Typ. Max. Units E AS Single Pulse Avalanche Energyd 23 mj I AR Avalanche Currentc 14 A E AR Repetitive Avalanche Energy c 3.5 mj Diode Characteristics Parameter Min. Typ. Max. Units I S Continuous Source Current 36g (Body Diode) A I SM Pulsed Source Current 140 (Body Diode)c V SD Diode Forward Voltage 1.0 V t rr Reverse Recovery Time ns Q rr Reverse Recovery Charge nc Conditions V GS = 0V, I D = 250µA Conditions MOSFET symbol showing the integral reverse p-n junction diode. T J = 25 C, I S = 14A, V GS = 0V e T J = 25 C, I F = 14A, V DD = V di/dt = 0A/µs e 2 G D S
3 I D, Drain-to-Source Current (Α) R DS(on), Drain-to-Source On Resistance (Normalized) I D, Drain-to-Source Current (A) I D, Drain-to-Source Current (A) 00 0 VGS TOP V 9.0V 7.0V 5.0V 4.5V 4.0V 3.5V BOTTOM 3.0V 00 0 VGS TOP V 9.0V 7.0V 5.0V 4.5V 4.0V 3.5V BOTTOM 3.0V 3.0V 3.0V 30µs PULSE WIDTH 1 Tj = 25 C V DS, Drain-to-Source Voltage (V) 30µs PULSE WIDTH 1 Tj = 175 C V DS, Drain-to-Source Voltage (V) Fig 1. Typical Output Characteristics Fig 2. Typical Output Characteristics I D = 36A V GS = V 0 T J = 25 C 1.5 T J = 175 C V DS = V 30µs PULSE WIDTH V GS, Gate-to-Source Voltage (V) T J, Junction Temperature ( C) Fig 3. Typical Transfer Characteristics Fig 4. Normalized On-Resistance vs. Temperature 3
4 I SD, Reverse Drain Current (A) I D, Drain-to-Source Current (A) C, Capacitance(pF) V GS, Gate-to-Source Voltage (V) 000 V GS = 0V, f = 1 MHZ C iss = C gs C gd, C ds SHORTED C rss = C gd C oss = C ds C gd I D = 14A V DS = 16V V DS = V C iss C oss C rss V DS, Drain-to-Source Voltage (V) Q G Total Gate Charge (nc) Fig 5. Typical Capacitance vs. Drain-to-Source Voltage Fig 6. Typical Gate Charge vs. Gate-to-Source Voltage OPERATION IN THIS AREA LIMITED BY R DS (on) T J = 175 C.00 0µsec T J = 25 C V GS = 0V V SD, Source-to-Drain Voltage (V) 1 Tc = 25 C Tj = 175 C Single Pulse 1msec msec V DS, Drain-to-Source Voltage (V) Fig 7. Typical Source-Drain Diode Forward Voltage Fig 8. Maximum Safe Operating Area 4
5 I D, Drain Current (A) V GS(th) Gate threshold Voltage (V) I D = 250µA T C, Case Temperature ( C) T J, Temperature ( C ) Fig 9. Maximum Drain Current vs. Case Temperature Fig. Threshold Voltage vs. Temperature D = 0.50 Thermal Response ( Z thjc ) SINGLE PULSE ( THERMAL RESPONSE ) R 1 R 1 R 2 R 2 R 3 R 3 τ J τ J τ 1 τ 1 τ 2 τ 2 τ 3 τ 3 Ci= τi/ri Ci= τi/ri 1E-006 1E t 1, Rectangular Pulse Duration (sec) τ C τ Ri ( C/W) τi (sec) Notes: 1. Duty Factor D = t1/t2 2. Peak Tj = P dm x Zthjc Tc Fig 11. Maximum Effective Transient Thermal Impedance, Junction-to-Case 5
6 E AS, Single Pulse Avalanche Energy (mj) 15V 0 V DS L DRIVER 80 I D TOP 3.7A 6.2A BOTTOM 14A R G 20V V GS tp D.U.T I AS 0.01Ω - V DD A Fig 12a. Unclamped Inductive Test Circuit V (BR)DSS 20 tp Starting T J, Junction Temperature ( C) Fig 12c. Maximum Avalanche Energy vs. Drain Current I AS L D Fig 12b. Unclamped Inductive Waveforms V DS V DD - Current Regulator Same Type as D.U.T. 50KΩ V GS Pulse Width < 1µs Duty Factor < 0.1% D.U.T 12V.2µF.3µF D.U.T. V - DS Fig 14a. Switching Time Test Circuit V DS 90% V GS 3mA I G I D Current Sampling Resistors % V GS Fig 13. Gate Charge Test Circuit t d(on) t r t d(off) t f Fig 14b. Switching Time Waveforms 6
7 - D.U.T ƒ - Circuit Layout Considerations Low Stray Inductance Ground Plane Low Leakage Inductance Current Transformer - Reverse Recovery Current Driver Gate Drive Period P.W. D.U.T. I SD Waveform Body Diode Forward Current di/dt D.U.T. V DS Waveform Diode Recovery dv/dt D = P.W. Period V GS =V V DD * R G dv/dt controlled by RG Driver same type as D.U.T. I SD controlled by Duty Factor "D" D.U.T. - Device Under Test V DD - Re-Applied Voltage Inductor Curent Body Diode Forward Drop Ripple 5% I SD * V GS = 5V for Logic Level Devices Fig 15. Peak Diode Recovery dv/dt Test Circuit for N-Channel HEXFET Power MOSFETs Vds Id Vgs Vgs(th) Qgs1 Qgs2 Qgd Qgodr Fig 16. Gate Charge Waveform 7
8 Power MOSFET Selection for Non-Isolated DC/DC Converters Control FET Special attention has been given to the power losses in the switching elements of the circuit - Q1 and Q2. Power losses in the high side switch Q1, also called the Control FET, are impacted by the R ds(on) of the MOSFET, but these conduction losses are only about one half of the total losses. Power losses in the control switch Q1 are given by; P loss = P conduction P switching P drive P output This can be expanded and approximated by; P loss = ( I 2 rms R ds(on ) ) I Q gd V in f i g ( ) Q g V g f Q oss 2 V f in I Q gs2 i g V in f This simplified loss equation includes the terms Q gs2 and Q oss which are new to Power MOSFET data sheets. Q gs2 is a sub element of traditional gate-source charge that is included in all MOSFET data sheets. The importance of splitting this gate-source charge into two sub elements, Q gs1 and Q gs2, can be seen from Fig 16. Q gs2 indicates the charge that must be supplied by the gate driver between the time that the threshold voltage has been reached and the time the drain current rises to I dmax at which time the drain voltage begins to change. Minimizing Q gs2 is a critical factor in reducing switching losses in Q1. Q oss is the charge that must be supplied to the output capacitance of the MOSFET during every switching cycle. Figure A shows how Q oss is formed by the parallel combination of the voltage dependant (nonlinear) capacitance s C ds and C dg when multiplied by the power supply input buss voltage. Synchronous FET The power loss equation for Q2 is approximated by; * P loss = P conduction P drive P output ( ) P loss = I rms 2 Rds(on) ( ) Q g V g f Q oss 2 V in f Q rr V in f *dissipated primarily in Q1. ( ) For the synchronous MOSFET Q2, R ds(on) is an important characteristic; however, once again the importance of gate charge must not be overlooked since it impacts three critical areas. Under light load the MOSFET must still be turned on and off by the control IC so the gate drive losses become much more significant. Secondly, the output charge Q oss and reverse recovery charge Q rr both generate losses that are transfered to Q1 and increase the dissipation in that device. Thirdly, gate charge will impact the MOSFETs susceptibility to Cdv/dt turn on. The drain of Q2 is connected to the switching node of the converter and therefore sees transitions between ground and V in. As Q1 turns on and off there is a rate of change of drain voltage dv/dt which is capacitively coupled to the gate of Q2 and can induce a voltage spike on the gate that is sufficient to turn the MOSFET on, resulting in shoot-through current. The ratio of Q gd /Q gs1 must be minimized to reduce the potential for Cdv/dt turn on. Figure A: Q oss Characteristic 8
9 TO-220AB Package Outline Dimensions are shown in millimeters (inches) 2.87 (.113) 2.62 (.3).54 (.415).29 (.405) 3.78 (.149) 3.54 (.139) - A (.185) 4.20 (.165) - B (.052) 1.22 (.048) (.600) (.584) (.255) 6. (.240) (.045) MIN LEAD ASSIGNMENTS 1 - GATE 2 - DRAIN 3 - SOURCE 4 - DRAIN (.555) (.530) 4.06 (.160) 3.55 (.140) 3X 1.40 (.055) 1.15 (.045) 3X 0.93 (.037) 0.69 (.027) 0.36 (.014) M B A M 0.55 (.022) 3X 0.46 (.018) 2.92 (.115) 2.64 (.4) 2.54 (.0) 2X NOTES: 1 DIMENSIONING & TOLERANCING PER ANSI Y14.5M, OUTLINE CONFORMS TO JEDEC OUTLINE TO-220AB. 2 CONTROLLING DIMENSION : INCH 4 HEATSINK & LEAD MEASUREMENTS DO NOT INCLUDE BURRS. TO-220AB Part Marking Information EXAMPLE: THIS IS AN IRF LOT CODE 1789 ASSEMBLED ON WW 19, 1997 IN THE ASSEMBLY LINE "C" INTERNATIONAL RECTIFIER LOGO ASSEMBLY LOT CODE PART NUMBER DATE CODE YEAR 7 = 1997 WEEK 19 LINE C For GB Production EXAMPLE: THIS IS AN IRF LOT CODE 1789 ASSEMBLED ON WW 19, 1997 IN THE ASSEMBLY LINE "C" INTERNATIONAL RECTIFIER LOGO PART NUMBER LOT CODE DATE CODE 9
10 D 2 Pak Package Outline Dimensions are shown in millimeters (inches) D 2 Pak Part Marking Information THIS IS AN IRF530S WITH LOT CODE 8024 ASSEMBLED ON WW 02, 2000 IN THE ASSEMBLY LINE "L" For GB Production THIS IS AN IRF530S WITH LOT CODE 8024 ASSEMBLED ON WW 02, 2000 IN THE ASSEMBLY LINE "L" INTERNATIONAL RECTIFIER LOGO ASSEMBLY LOT CODE INTERNATIONAL RECTIFIER LOGO F530S F530S PART NUMBER DATE CODE YEAR 0 = 2000 WEEK 02 LINE L PART NUMBER LOT CODE DATE CODE
11 TO-262 Package Outline Dimensions are shown in millimeters (inches) IGBT 1- GATE 2- COLLEC- TOR TO-262 Part Marking Information EXAMPLE: THIS IS AN IRL33L LOT CODE 1789 INTERNATIONAL ASSEMBLED ON WW 19, 1997 RECTIFIER IN THE ASSEMBLY LINE "C" LOGO ASSEMBLY LOT CODE PART NUMBER DATE CODE YEAR 7 = 1997 WEEK 19 LINE C 11
12 D 2 Pak Tape & Reel Information Dimensions are shown in millimeters (inches) TRR 1.60 (.063) 1.50 (.059) 4. (.161) 3.90 (.153) 1.60 (.063) 1.50 (.059) (.0145) (.0135) FEED DIRECTION TRL 1.85 (.073) 1.65 (.065).90 (.429).70 (.421) (.457) (.449) 16. (.634) (.626) 1.75 (.069) 1.25 (.049) (.609) (.601) (.957) (.941) 4.72 (.136) 4.52 (.178) FEED DIRECTION (.532) (.504) (1.079) (.941) (14.173) MAX (2.362) MIN. NOTES : 1. COMFORMS TO EIA CONTROLLING DIMENSION: MILLIMETER. 3. DIMENSION HUB. 4. INCLUDES FLANGE OUTER EDGE (1.039) (.961) (1.197) MAX. 4 Notes: Repetitive rating; pulse width limited by max. junction temperature. Starting T J = 25 C, L = 0.22mH, R G = 25Ω, I AS = 14A. ƒ Pulse width 400µs; duty cycle 2%. C oss eff. is a fixed capacitance that gives the same charging time as C oss while V DS is rising from 0 to 80% V DSS. This is only applied to TO-220AB pakcage. This is applied to D 2 Pak, when mounted on 1" square PCB (FR- 4 or G- Material). For recommended footprint and soldering techniques refer to application note #AN-994. TO-220AB package is not recommended for Surface Mount Application. Data and specifications subject to change without notice. This product has been designed and qualified for the Industrial market. Qualification Standards can be found on IR s Web site. IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (3) TAC Fax: (3) Visit us at for sales contact information. /
13 Note: For the most current drawings please refer to the IR website at:
IRF3709ZCS IRF3709ZCL
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Co-Pack Dual N-channel HEXFET Power MOSFET and Schottky Diode Ideal for Synchronous Buck DC-DC Converters Up to A Peak Output Low Conduction Losses Low Switching Losses Low Vf Schottky Rectifier D D 2
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Typical Applications Integrated Starter Alternator 42 Volts Automotive Electrical Systems Benefits Advanced Process Technology Ultra Low On-Resistance Dynamic dv/dt Rating G 175 C Operating Temperature
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Features l Advanced Process Technology l Ultra Low On-Resistance l 175 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax l Lead-Free Description This HEXFET Power MOSFET
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SMPS MOSFET Applications l Switch Mode Power Supply (SMPS) l Motor Drive l Bridge Converters l All Zero Voltage Switching Benefits l Low Gate Charge Qg results in Simple Drive Requirement l Improved Gate,
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PD - 95370B IRFR24N5DPbF IRFU24N5DPbF Applications l High frequency DC-DC converters HEXFET Power MOSFET S R DS(on) max I D 50V 95mΩ 24A Benefits l Low Gate-to-Drain Charge to Reduce Switching Losses l
More informationTO-220AB IRFB3307. W/ C V GS Gate-to-Source Voltage ± 20 dv/dt Peak Diode Recovery f 11. V/ns T J Operating Junction and -55 to
Applications l High Efficiency Synchronous Rectification in SMPS l Uninterruptible Power Supply l High Speed Power Switching l Hard Switched and High Frequency Circuits Benefits l Improved Gate, Avalanche
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Applications l High frequency DC-DC converters l Lead-Free PD - 95473 SMPS MOSFET IRFB260NPbF HEXFET Power MOSFET Benefits Low Gate-to-Drain Charge to Reduce Switching Losses Fully Characterized Capacitance
More informationSMPS MOSFET. V DSS R DS(on) max I D
PD - 95355A SMPS MOSFET IRFR5N20DPbF IRFU5N20DPbF HEXFET Power MOSFET Applications High frequency DC-DC converters Lead-Free l l V DSS R DS(on) max I D 200V 65Ω 7A Benefits Low Gate-to-Drain Charge to
More informationSMPS MOSFET. V DSS R DS(on) max I D
PD - 95353A SMPS MOSFET IRFR12N25DPbF IRFU12N25DPbF HEXFET Power MOSFET Applications High frequency DC-DC converters Lead-Free l l V DSS R DS(on) max I D 250V 0.26Ω 14A Benefits Low Gate-to-Drain Charge
More informationAUTOMOTIVE MOSFET TO-220AB IRF P C = 25 C Maximum Power Dissipation 330 Linear Derating Factor
Features l Advanced Process Technology l Ultra Low On-Resistance l 175 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax Description Specifically designed for Automotive
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Applications l High Efficiency Synchronous Rectification in SMPS l Uninterruptible Power Supply l High Speed Power Switching l Hard Switched and High Frequency Circuits l Lead-Free G D S V DSS IRFB357PbF
More informationl Advanced Process Technology TO-220AB IRF640NPbF
l Advanced Process Technology l Dynamic dv/dt Rating l 75 C Operating Temperature l Fast Switching l Fully Avalanche Rated l Ease of Paralleling l Simple Drive Requirements l Lead-Free Description Fifth
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PD - 9733 Applications l High Efficiency Synchronous Rectification in SMPS l Uninterruptible Power Supply l High Speed Power Switching l Hard Switched and High Frequency Circuits Benefits l Improved Gate,
More informationl Advanced Process Technology TO-220AB IRF630N
l Advanced Process Technology l Dynamic dv/dt Rating l 175 C Operating Temperature l Fast Switching l Fully Avalanche Rated l Ease of Paralleling l Simple Drive Requirements Description Fifth Generation
More informationIRFZ48NS IRFZ48NL HEXFET Power MOSFET
l Advanced Process Technology l Surface Mount (IRFZ48NS) l Low-profile through-hole (IRFZ48NL) l 75 C Operating Temperature l Fast Switching l Fully Avalanche Rated Description Advanced HEXFET Power MOSFETs
More informationAbsolute Maximum Ratings Max. A I T C = 25 C Continuous Drain Current, V 10V (Package Limited)
PD -9697A Features l Advanced Process Technology l Ultra Low On-Resistance l 175 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax l Lead-Free Description This HEXFET
More informationTO-220AB IRFB4610. W/ C V GS Gate-to-Source Voltage ± 20 dv/dt Peak Diode Recovery e 7.6
Applications l High Efficiency Synchronous Rectification in SMPS l Uninterruptible Power Supply l High Speed Power Switching l Hard Switched and High Frequency Circuits Benefits l Improved Gate, Avalanche
More informationIRLS3036PbF IRLSL3036PbF HEXFET Power MOSFET
Applications l DC Motor Drive l High Efficiency Synchronous Rectification in SMPS l Uninterruptible Power Supply l High Speed Power Switching l Hard Switched and High Frequency Circuits G D S PD -97358
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PD -97364A IRLS334PbF IRLSL334PbF Applications l DC Motor Drive l High Efficiency Synchronous Rectification in SMPS l Uninterruptible Power Supply l High Speed Power Switching l Hard Switched and High
More informationAUTOMOTIVE MOSFET. A I T C = 25 C Continuous Drain Current, V 10V (Package Limited)
Features l Advanced Process Technology l Ultra Low On-Resistance l 175 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax AUTOMOTIVE MOSFET Description Specifically designed
More informationIRFR24N15D IRFU24N15D
Applications l High frequency DC-DC converters SMPS MOSFET PD - 94392 IRFR24N5D IRFU24N5D HEXFET Power MOSFET V DSS R DS(on) max I D 50V 95mΩ 24A Benefits Low Gate-to-Drain Charge to Reduce Switching Losses
More informationV DSS R DS(on) max I D
PD - 95514A IRFR34PbF IRFU34PbF HEXFET Power MOSFET Applications High frequency DC-DC converters Lead-Free l l V DSS R DS(on) max I D V 39mΩ 31A Benefits Low Gate-to-Drain Charge to Reduce Switching Losses
More informationSMPS MOSFET. V DSS R DS(on) max I D
SMPS MOSFET PD- 95325 IRFB17N20DPbF IRFS17N20DPbF IRFSL17N20DPbF HEXFET Power MOSFET Applications l High frequency DC-DC converters l Lead-Free Benefits Low Gate-to-Drain Charge to Reduce Switching Losses
More informationIRF2804PbF IRF2804SPbF IRF2804LPbF HEXFET Power MOSFET
Features l Advanced Process Technology l Ultra Low On-Resistance l 175 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax l Lead-Free AUTOMOTIVE MOSFET G IRF2804PbF IRF2804SPbF
More informationTO-220AB. IRF3710ZPbF. 240 P C = 25 C Maximum Power Dissipation 160 Linear Derating Factor
PD - 95466A Features l Advanced Process Technology l Ultra Low On-Resistance l Dynamic dv/dt Rating l 175 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax l Lead-Free
More informationIRFI4212H-117P. Description. Key Parameters g V DS 100 V R DS(ON) 10V 58 m: Q g typ. 12 nc Q sw typ. 6.9 nc R G(int) typ. 3.
DIGITAL AUDIO MOSFET PD - 97249A IRFI422H-7P Features Ÿ Integrated half-bridge package Ÿ Reduces the part count by half Ÿ Facilitates better PCB layout Ÿ Key parameters optimized for Class-D audio amplifier
More informationSMPS MOSFET. V DSS R DS(on) max I D
SMPS MOSFET PD - 95536 IRFB23N20DPbF IRFS23N20DPbF IRFSL23N20DPbF HEXFET Power MOSFET Applications High frequency DC-DC converters Lead-Free l l V DSS R DS(on) max I D 200V 0.Ω 24A Benefits Low Gate-to-Drain
More informationSMPS MOSFET. V DSS R DS(on) max I D
SMPS MOSFET PD - 9506A IRFR8N5DPbF IRFU8N5DPbF HEXFET Power MOSFET Applications High frequency DC-DC converters Lead-Free l l V DSS R DS(on) max I D 50V 0.25Ω 8A Benefits l Low Gate to Drain Charge to
More informationIRFS4127PbF IRFSL4127PbF
Applications l High Efficiency Synchronous Rectification in SMPS l Uninterruptible Power Supply l High Speed Power Switching l Hard Switched and High Frequency Circuits Benefits l Improved Gate, Avalanche
More informationC Soldering Temperature, for 10 seconds 300 (1.6mm from case )
Advanced Process Technology Dynamic dv/dt Rating 75 C Operating Temperature Fast Switching Fully Avalanche Rated Lead-Free G PD - 94822 IRFZ44EPbF HEXFET Power MOSFET D S V DSS = 60V R DS(on) = 0.023Ω
More informationV DSS R DS(on) max Qg 30V GS = 10V 5.4nC
PD - 96227B Applications l Synchronous Buck Converter for Computer Processor Power l Isolated DC to DC Converters for Network and Telecom l Buck Converters for Set-Top Boxes l System/load switch Benefits
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Features l Advanced Process Technology l Ultra Low On-Resistance l 75 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax l Lead-Free Description This HEXFET Power MOSFET
More informationSMPS MOSFET. V DSS Rds(on) max I D
Applications Switch Mode Power Supply ( SMPS ) Uninterruptable Power Supply High speed power switching Lead-Free Benefits Low Gate Charge Qg results in Simple Drive Requirement Improved Gate, Avalanche
More informationSMPS MOSFET. V DSS R DS(on) max I D
Benefits l Ultra-Low Gate Impedance l l Very Low R DS(on) Fully Characterized Avalanche Voltage and Current Absolute Maximum Ratings SMPS MOSFET Applications l High Frequency DC-DC Isolated Converters
More informationAUTOMOTIVE MOSFET. 30 Pulsed Drain Current c. I DM P C = 25 C Maximum Power Dissipation 120 Linear Derating Factor
Features l Advanced Process Technology l Ultra Low On-Resistance l Dynamic dv/dt Rating l 175 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax AUTOMOTIVE MOSFET S Description
More informationSMPS MOSFET. V DSS R DS(on) max I D
SMPS MOSFET Applications l Switch Mode Power Supply (SMPS) l Motor Drive l Bridge Converters l All Zero Voltage Switching l Lead-Free Benefits l Low Gate Charge Qg results in Simple Drive Requirement l
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Features l Advanced Process Technology l Ultra Low On-Resistance l 175 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax l Lead-Free AUTOMOTIVE MOSFET Description Specifically
More informationIRF2204SPbF IRF2204LPbF HEXFET Power MOSFET
Typical Applications l Industrial Motor Drive Features l Advanced Process Technology l Ultra Low On-Resistance l Dynamic dv/dt Rating l 75 C Operating Temperature l Fast Switching l Repetitive Avalanche
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PD - 9795 DIGITAL AUDIO MOSFET Features Key parameters optimized for Class-D audio amplifier applications Low R DSON for improved efficiency Low Q G and Q SW for better THD and improved efficiency Low
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Features Logic Level Advanced Process Technology Ultra Low On-Resistance 75 C Operating Temperature Fast Switching Repetitive Avalanche Allowed up to Tjmax AUTOMOTIVE MOSFET Description Specifically designed
More informationSMPS MOSFET. V DSS R DS(on) max (mω) I D
SMPS MOSFET PD- 94048 IRFR220N IRFU220N HEXFET Power MOSFET Applications l High frequency DC-DC converters V DSS R DS(on) max (mω) I D 200V 600 5.0A Benefits l Low Gate to Drain Charge to Reduce Switching
More informationA I T C = 25 C Continuous Drain Current, V 10V (Package Limited) 560 P C = 25 C Power Dissipation 330 Linear Derating Factor
PD - 95758A Features l Designed to support Linear Gate Drive Applications l 175 C Operating Temperature l Low Thermal Resistance Junction - Case l Rugged Process Technology and Design l Fully Avalanche
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Applications l High Frequency DC-DC Isolated Converters with Synchronous Rectification for Telecom and Industrial Use l High Frequency Buck Converters for Computer Processor Power l Lead-Free Benefits
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SMPS MOSFET PD - 94445 HEXFET Power MOSFET Applications l High frequency DC-DC converters V DSS R DS(on) max I D 50V 85mΩ@V GS = V 2.6A Benefits l Low Gate to Drain Charge to Reduce Switching Losses l
More informationAUTOMOTIVE MOSFET. 240 P C = 25 C Power Dissipation 110 Linear Derating Factor V GS Gate-to-Source Voltage ± 20
Features Advanced Process Technology Ultra Low On-Resistance 175 C Operating Temperature Fast Switching Repetitive Avalanche Allowed up to Tjmax AUTOMOTIVE MOSFET Description Specifically designed for
More informationIRF6646 DirectFET Power MOSFET
Typical R DS(on) (Ω) V GS, Gate-to-Source Voltage (V) l RoHS compliant containing no lead or bromide l Low Profile (
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IRF36SPbF Applications l High Efficiency Synchronous Rectification in SMPS l Uninterruptible Power Supply l High Speed Power Switching l Hard Switched and High Frequency Circuits Benefits l Improved Gate,
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PD - 964B Features l Advanced Process Technology l Ultra Low On-Resistance l 75 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax l Lead-Free l Halogen-Free Description
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PD - 9729A IRFR8EPbF IRFU8EPbF Applications l High Efficiency Synchronous Rectification in SMPS l Uninterruptible Power Supply l High Speed Power Switching l Hard Switched and High Frequency Circuits Benefits
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Features l Advanced Process Technology l Ultra Low On-Resistance l 175 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax l Multiple Package Options l Lead-Free Description
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IRF3808 AUTOMOTIVE MOSFET Typical Applications HEXFET Power MOSFET Integrated Starter Alternator D 42 Volts Automotive Electrical Systems V DSS = 75V Benefits Advanced Process Technology R DS(on) = 0.007Ω
More informationC Soldering Temperature, for 10 seconds 300 (1.6mm from case ) Mounting Torque, 6-32 or M3 screw 1.1 (10) N m (lbf in)
Typical Applications l Industrial Motor Drive Features l Advanced Process Technology l Ultra Low On-Resistance l 175 C Operating Temperature l Fast Switching l Repetitive Avalanche Allowed up to Tjmax
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