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LM3475MFX データシート(PDF) 11 Page - National Semiconductor (TI) |
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LM3475MFX データシート(HTML) 11 Page - National Semiconductor (TI) |
11 / 14 page Design Information (Continued) The power loss in the PFET consists of switching losses and conducting losses. Although switching losses are difficult to precisely calculate, the equation below can be used to esti- mate total power dissipation. Increasing R DSON will increase power losses and degrade efficiency. Note that switching losses will also increase with lower gate threshold voltages. PD switch =RDSONx(IOUT) 2xD+FxI OUTxVINx(ton +toff)/2 where: t on = FET turn on time t off = FET turn off time A value of 10ns to 50ns is typical for ton and toff. Note that the R DSON has a positive temperature coefficient. At 100˚C, the R DSON may be as much as 150% higher than the value at 25˚C. The Gate capacitance of the PFET has a direct impact on both PFET transition time and the power dissipation in the LM3475. Most of the power dissipated in the LM3475 is used to drive the PFET switch. This power can be calculated as follows: The amount of average gate driver current required during switching (I G) is: I G =Qg xF And the total power dissipated in the device is: I qVIN +IGVIN Where I q is typically 260µA as shown in the Electrical Char- acteristics table. As gate capacitance increases, operating frequency may need to be reduced, or additional heat sink- ing may be required to lower the power dissipation in the device. In general, keeping the gate capacitance below 2000pF is recommended to keep transition times (switching losses), and power losses low. REDUCING SWITCHING NOISE Although the LM3475 employs internal noise suppression circuitry, external noise may continue to be excessive. There are several methods available to reduce noise and EMI. MOSFETs are very fast switching devices. The fast increase in PFET current coupled with parasitic trace inductance can create unwanted noise spikes at both the switch node and at V IN. Switching noise will increase with load current and input voltage. This noise can also propagate through the ground plane, sometimes causing unpredictable device perfor- mance. Slowing the rise and fall times of the PFET can be very effective in reducing this noise. Referring to Figure 4, the PFET can be slowed down by placing a small (1 Ω-10Ω) resistor in series with PGATE. However, this resistor will increase the switching losses in the PFET and will lower efficiency. Therefore it should be kept as small as possible and only used when necessary. Another method to reduce switching noise (other than good PCB layout, see Layout section) is to use a small RC filter or snubber. The snubber should be placed in parallel with the catch diode, connected close to the drain of the PFET, as shown in Figure 4. Again, the snubber should be kept as small as possible to limit its impact on system efficiency. A typical range is a 10 Ω-100Ω resistor and a 470pF to 2.2nF ceramic capacitor. Layout PC board layout is very important in all switching regulator designs. Poor layout can cause EMI problems, excess switching noise and poor operation. As shown in Figure 6 and Figure 7, place the ground of the input capacitor as close as possible to the anode of the diode. This path also carries a large AC current. The switch node, the node connecting the diode cathode, inductor, and PFET drain, should be kept as small as possible. This node is one of the main sources for radiated EMI. The feedback pin is a high impedance node and is therefore sensitive to noise. Be sure to keep all feedback traces away from the inductor and the switch node, which are sources of noise. Also, the resistor divider should be placed close to the FB pin. The gate pin of the external PFET should be located close to the PGATE pin. Using a large, continuous ground plane is also recom- mended, particularly in higher current applications. 20070105 FIGURE 4. PGATE Resistor and Snubber www.national.com 11 |
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