LM3488QMM National Semiconductor, LM3488QMM Datasheet
LM3488QMM
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LM3488QMM Summary of contents
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... Power saving shutdown mode reduces the total supply current to 5µA and allows power supply sequencing. Internal soft-start limits the inrush current at start-up. Typical Application Circuit © 2009 National Semiconductor Corporation LM3488/LM3488Q Key Specifications ■ Wide supply voltage range of 2.97V to 40V ■ ...
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... LM3488MMX MSOP-8 LM3488QMM LM3488QMMX *Automotive Grade (Q) product incorporates enhanced manufacturing and support processes for the automotive market, including defect detection methodologies. Reliability qualification is compliant with the requirements and temperature grades defined in the AEC-Q100 standard. Automotive grade products are identified with the letter Q. For more information go to http://www.national.com/automotive. ...
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... Absolute Maximum Ratings If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. Input Voltage FB Pin Voltage FA/SYNC/SD Pin Voltage Peak Driver Output Current (<10µs) Power Dissipation Storage Temperature Range Junction Temperature ESD Susceptibilty ...
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Symbol Parameter V Internal Compensation Ramp SL Voltage V Output Over-voltage OVP Protection (with respect to feedback voltage) (Note 8) V Output Over-Voltage OVP(HYS) Protection Hysteresis(Note 8) Gm Error Ampifier Transconductance A Error Amplifier Voltage Gain VOL I Error Amplifier ...
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Note 1: Absolute Maximum Ratings are limits beyond which damage to the device may occur. Operating Ratings are conditions under which operation of the device is intended to be functional. For guaranteed specifications and test conditions, see the Electrical Characteristics. ...
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Frequency vs Temperature Current Sense Threshold vs Input Voltage Efficiency vs Load Current (3.3V In and 12V Out) www.national.com Drive Voltage vs Input Voltage 10138854 COMP Pin Voltage vs Load Current 10138845 Efficiency vs Load Current (5V In and 12V ...
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Efficiency vs Load Current (9V In and 12V Out) Error Amplifier Gain COMP Pin Source Current vs Temperature Efficiency vs Load Current (3.3V In and 5V Out) 10138860 Error Amplifier Phase 10138855 Short Circuit Protection vs Input Voltage 10138836 7 ...
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Compensation Ramp vs Compensation Resistor Current Sense Voltage vs Duty Cycle www.national.com Shutdown Threshold Hysteresis vs Temperature 10138851 10138852 8 10138846 ...
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Functional Block Diagram Functional Description The LM3488 uses a fixed frequency, Pulse Width Modulated (PWM), current mode control architecture typical appli- cation circuit, the peak current through the external MOSFET is sensed through an external sense resistor. The ...
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SLOPE COMPENSATION RAMP The LM3488 uses a current mode control scheme. The main advantages of current mode control are inherent cycle-by-cy- cle current limit for the switch, and simpler control loop char- acteristics also easy to parallel power ...
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FIGURE 3. Compensation Ramp Avoids Sub-Harmonic Oscillation The compensation ramp has been added internally in LM3488. The slope of this compensation ramp has been se- lected to satisfy most of the applications. The slope of the internal compensation ramp depends ...
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FIGURE 5. ΔV SL FREQUENCY ADJUST/SYNCHRONIZATION/SHUTDOWN The switching frequency of LM3488 can be adjusted between 100kHz and 1MHz using a single external resistor. This re- sistor must be connected between FA/SYNC/SD pin and ground, as shown in Figure 6. Please ...
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FIGURE 8. Shutdown Operation in Frequency Adjust Mode FIGURE 9. Shutdown Operation in Synchronization Mode SHORT-CIRCUIT PROTECTION When the voltage across the sense resistor (measured on I Pin) exceeds 350mV, short-circuit current limit gets acti- SEN FIGURE 7. Frequency Synchronization ...
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Typical Applications The LM3488 may be operated in either continuous or discon- tinuous conduction mode. The following applications are de- signed for continuous conduction operation. This mode of operation has higher efficiency and lower EMI characteristics than the discontinuous mode. ...
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FIGURE 11. A. Inductor Current B. Diode Current If V (t) is constant, di (t)/dt must be constant. Hence, for given input voltage and output voltage, the current in the in- ductor changes at a constant rate. ...
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If Δi er than I , the inductor current will stay above zero and the L converter will operate in continuous conduction mode. All the analysis in this datasheet assumes operation in continuous conduction ...
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CURRENT LIMIT WITH ADDITIONAL SLOPE COMPENSATION If an external slope compensation resistor is used (see Figure 4) the internal control signal will be modified and this will have an effect on the current limit. The control signal is given by: ...
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MOSFET can be categorized into conduction losses and ac switching or transition losses. R DS(ON) the conduction losses. The conduction loss loss across the MOSFET. The maximum conduction loss is given by: where D is the ...
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POWER MOSFET SELECTION As in boost converter, the parameters governing the selection of the MOSFET are the minimum threshold voltage the on-resistance the total gate charge, Q (MIN) DS(ON) reverse transfer capacitance and the ...
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D is less than 20 the benefit to output ripple IL1 L1AVE is minimal. By increasing the value of L2 above the minimum recom- mended, Δ can be reduced, which in turn will reduce the IL2 ...
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Output Capacitor Selection The ESR and ESL of the output capacitor directly control the output ripple. Use low capacitors with low ESR and ESL at the output for high efficiency and low ripple voltage. Surface mount tantalums, surface mount polymer ...
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Physical Dimensions www.national.com inches (millimeters) unless otherwise noted 22 ...
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Notes 23 www.national.com ...
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