JAJSAQ9F November 2008 – September 2016 LM27341 , LM27341-Q1 , LM27342 , LM27342-Q1
PRODUCTION DATA.
The performance of any switching converter depends as much upon the layout of the PCB as the component selection. The following guidelines help the user design a circuit with maximum rejection of outside EMI and minimum generation of unwanted EMI.
Parasitic inductance can be reduced by keeping the power path components close together and keeping the area of the loops small, on which high currents travel. Short, thick traces or copper pours (shapes) are best. In particular, the switch node (where L1, D1, and the SW pin connect) must be just large enough to connect all three components without excessive heating from the current it carries. The LM2734x and LM2734x-Q1 operate in two distinct cycles (see Figure 27) whose high current paths are shown in Figure 58.
The dark grey, inner loop represents the high current path during the MOSFET on-time. The light grey, outer loop represents the high current path during the off-time.
The diagram of Figure 58 is also useful for analyzing the flow of continuous current versus the flow of pulsating currents. The circuit paths with current flow during both the on-time and off-time are considered to be continuous current, while those that carry current during the on-time or off-time only are pulsating currents. Preference in routing must be given to the pulsating current paths, as these are the portions of the circuit most likely to emit EMI. The ground plane of a PCB is a conductor and return path, and it is susceptible to noise injection just like any other circuit path. The path between the input source and the input capacitor and the path between the catch diode and the load are examples of continuous current paths. In contrast, the path between the catch diode and the input capacitor carries a large pulsating current. This path must be routed with a short, thick shape, preferably on the component side of the PCB. Multiple vias in parallel must be used right at the pad of the input capacitor to connect the component side shapes to the ground plane. A second pulsating current loop that is often ignored is the gate drive loop formed by the SW and BOOST pins and boost capacitor CBOOST. To minimize this loop and the EMI it generates, keep CBOOST close to the SW and BOOST pins.
The FB pin is a high-impedance input, and the loop created by R2, the FB pin and ground must be made as small as possible to maximize noise rejection. R2 must therefore be placed as close as possible to the FB and GND pins of the IC.
The remaining components must also be placed as close as possible to the IC. See AN-1229 SIMPLE SWITCHER® PCB Layout Guidelines (SNVA054) for further considerations and the LM27342 demo board as an example of a four-layer layout.