IR3840WMTR1PBF International Rectifier, IR3840WMTR1PBF Datasheet
IR3840WMTR1PBF
Specifications of IR3840WMTR1PBF
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IR3840WMTR1PBF Summary of contents
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SupIRBuck TM INTEGRATED 12A SYNCHRONOUS BUCK REGULATOR Features • Greater than 96% Maximum Efficiency • Wide Input Voltage Range 1.5V to 16V • Wide Output Voltage Range 0.7V to 0.9*Vin • Continuous 12A Load Capability • Integrated Bootstrap-diode • High ...
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... PACKAGE INFORMATION 5mm x 6mm POWER QFN V IN Boot Enable ORDERING INFORMATION PACKAGE DESIGNATOR M M Rev 9 Gnd Seq FB COMP Gnd Rt SS OCSet PACKAGE PIN COUNT DESCRIPTION IR3840WMTRPbF 15 IR3840WMTR1PbF 15 IR3840WMPbF and -40 C PGnd θ θ PCB - V CC PGood PARTS PER REEL 4000 750 2 ...
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Block Diagram Fig. 2. Simplified block diagram of the IR3840W Rev 9.0 IR3840WMPbF 3 ...
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Pin Description Pin Name Sequence pin. Use two external resistors to set Simultaneous Power up 1 Seq sequencing. If this pin is not used connect to Vcc. Inverting input to the error amplifier. This pin is connected directly to the ...
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Recommended Operating Conditions Symbol Definition V Input Voltage in V Supply Voltage cc Boot to SW Supply Voltage V Output Voltage o I Output Current o Fs Switching Frequency T Junction Temperature j Electrical Specifications Unless otherwise specified, these specification ...
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Electrical Specifications (continued) Unless otherwise specified, these specification apply over 4.5V< V Typical values are specified Parameter Symbol Oscillator Rt Voltage Frequency F S Ramp Amplitude Vramp Ramp Offset Ramp (os) Min Pulse Width Dmin(ctrl) ...
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Electrical Specifications (continued) Unless otherwise specified, these specification apply over 4.5V< V Typical values are specified Parameter SYM Thermal Shutdown Thermal Shutdown Hysteresis Power Good Power Good upper VPG(upper) Threshold Upper Threshold VPG(upper)_Dly Delay Power ...
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Typical Efficiency and Power Loss Curves Vin=12V, Vcc=5V, Io=2A-12A, F The table below shows the inductors used for each of the output voltages in the efficiency measurement. Vo (V) 0.9 1.0 1.1 1.2 1.5 1.8 2.5 3.3 5 ...
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Typical Efficiency and Power Loss Curves Vin=5V, Vcc=5V, Io=1A-12A, Fs=600kHz, Room Temperature, No Air Flow For all the output voltages, L=0.3uH (DCR=0.29 mΩ, P/N: 59PR9874N 1.0 2.0 3.0 4.0 0.7V 0.75V ...
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TYPICAL OPERATING CHARACTERISTICS (-40 Icc(Standby) 290 270 250 230 210 190 170 150 -40 - Temp[ C] FREQUENCY 550 540 530 520 510 500 490 480 470 460 450 -40 - ...
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Rdson of MOSFETs Over Temperature at Vcc= -40 -20 0 Thermal De-rating Curves Test Conditions: Vin=12V, Vout=1.8V, Vcc=5V, Fs=600kHz, 0- 400LFM L=0.6uH (MPL104-0R6IR) 12.5 12 11.5 11 10.5 10 9.5 9 ...
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Circuit Description THEORY OF OPERATION Introduction The IR3840W uses a PWM voltage mode control scheme with external compensation to provide good noise immunity and maximum flexibility in selecting inductor values and capacitor types. The switching frequency is programmable from 250kHz ...
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Figure 3c. shows the recommended startup sequence for sequenced operation of IR3840W with Enable used as logic input. Fig. 3c. Recommended startup sequence, Sequenced operation Pre-Bias Startup IR3840W is able to start up into pre-charged output, which prevents oscillation disturbances ...
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Operating Frequency The switching frequency can be programmed between 250kHz – 1500kHz by connecting an external resistor from R pin to Gnd. Table 1 t tabulates the oscillator frequency versus R Table 1. Switching Frequency and I External Resistor (R ...
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Thermal Shutdown Temperature sensing is provided IR3840W. The trip threshold is typically set to o 140 C. When trip threshold is exceeded, thermal shutdown turns off both MOSFETs discharges the soft start capacitor. Automatic restart is initiated when the sensed ...
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TIMING DIAGRAM OF PGOOD FUNCTION Fig.9a IR3840W Non-Tracking Operation (Seq=Vcc) Fig.9b IR3840W Tracking Operation Rev 9.0 IR3840WMPbF 16 ...
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Minimum on time Considerations The minimum ON time is the shortest amount of time for which the Control FET may be reliably turned on, and this depends on the internal timing delays. For the IR3840W, the typical minimum on-time is ...
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Application Information Design Example: The following example is a typical application for IR3840W. The application circuit is shown on page 23 13.2V max 1 ≤ ...
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V across C6 remains approximately c unchanged and the voltage at the Boot pin becomes ≅ + − .......... .......... .......... Boot Fig. 12. Bootstrap circuit to generate Vc voltage A ...
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Output Capacitor Selection The voltage ripple and transient requirements determine the output capacitors type and values. The criteria is normally based on the value of the Effective Series Resistance (ESR). However the actual capacitance value and the Equivalent Series Inductance ...
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Fig. 14. Type II compensation network and its asymptotic gain plot The transfer function ( given by − = − ...
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V OUT E REF Gain(dB) H( Fig.15. Type III Compensation network and its asymptotic gain ...
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Detailed calculation of compensation TypeIII o Θ = Desired Phase Margin 70 − Θ sin 17.63 kHz Θ sin 1 + Θ sin 567.1 kHz P ...
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... Panasonic Thick Film, 0603,1/10W,1% Rohm Thick Film, 0603,1/10W,1% Rohm Thick Film, 0603,1/10W,1% Rohm 0603, 50V, X7R, 10% Panasonic 0603, 16V, X5R, 20% Panasonic SupIRBuck, 12A, PQFN 5x6mm International Rectifier IR3840WMPbF IR3840WMPbF Part Number EEV-FK1E331P C3216X5R1E106M ECJ-1VB1E104K MPL104-0R6 ECJ-2FB0J226ML MCR03EZPFX4992 MCR03EZPFX7501 MCR03EZPFX2372 MCR03EZPFX2151 MCR03EZPFX1002 ...
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TYPICAL OPERATING WAVEFORMS Vin=12.0V, Vcc=5V, Vo=1.8V, Io=0-12A, Room Temperature, No Air Flow Fig. 17: Start up at 12A Load :Enable Fig. 19: Start ...
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TYPICAL OPERATING WAVEFORMS Vin=12V, Vcc=5V, Vo=1.8V, Io=6A-12A, Room Temperature, No Air Flow Fig. 23: Transient Response 12A step 2.5A/μs Rev 9.0 IR3840WMPbF out 4 out 26 ...
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TYPICAL OPERATING WAVEFORMS Vin=12V, Vcc=5V, Vo=1.8V, Io=12A, Room Temperature, No Air Flow Fig. 24: Bode Plot at 12A load shows a bandwidth of 99kHz and phase margin of 54 Rev 9.0 IR3840WMPbF degrees 27 ...
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Simultaneous Tracking at Power Up and Power Down Vin=12V, Vo=1.8V, Io=12A, Room Temperature, No Air Flow 3.3V R 3.92K s1 2.49K R s2 Fig. 25: Simultaneous Tracking a 3.3V input at power-up and shut-down Rev 9.0 V OUT IR3840W IR3624 ...
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Layout Considerations The layout is very important when designing high frequency switching converters. Layout will affect noise pickup and can cause a good design to perform with less than expected results. Make all the connections for components in the top ...
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Feedback trace should be kept away form noise sources Fig. 26b. IRDC3840W demoboard layout considerations – Bottom Layer Analog Ground plane Single point connection between AGND & PGND, should be close to the SupIRBuck, kept away from noise sources. Fig. ...
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PCB Metal and Components Placement Lead lands (the 11 IC pins) width should be equal to nominal part lead width. The minimum lead to lead spacing should be ≥ 0.2mm to minimize shorting. Lead land length should be equal to ...
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Solder Resist It is recommended that the lead lands are Non Solder Mask Defined (NSMD). The solder resist should be pulled away from the metal lead lands by a minimum of 0.025mm to ensure NSMD pads. The land pad should ...
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Stencil Design • The Stencil apertures for the lead lands should be approximately 80% of the area of the lead lads. Reducing the amount of solder deposited will minimize the occurrences of lead shorts. If too much solder is deposited ...
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IR WORLD HEADQUARTERS: This product has been designed and qualified for the Consumer market Rev 9.0 IR3840WMPbF BOTTOM VIEW 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105 Visit us at www.irf.com for sales contact information Data and ...