LTC3890 Datasheet, PDF(29/36 Page) Linear Technology – 60V Low IQ, Dual, 2-Phase Synchronous Step-Down DC/DC Controller

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

LTC3890 Datasheet, PDF (29/36 Pages) Linear Technology – 60V Low IQ, Dual, 2-Phase Synchronous Step-Down DC/DC Controller

◁

LTC3890

APPLICATIONS INFORMATION

PC Board Layout Checklist

When laying out the printed circuit board, the following

checklist should be used to ensure proper operation of

the IC. These items are also illustrated graphically in the

layout diagram of Figure 11. Figure 12 illustrates the current

waveforms present in the various branches of the 2-phase

synchronous regulators operating in the continuous mode.

Check the following in your layout:

1. Are the top N-channel MOSFETs MTOP1 and MTOP2

located within 1cm of each other with a common drain

connection at CIN? Do not attempt to split the input

decoupling for the two channels as it can cause a large

resonant loop.

2. Are the signal and power grounds kept separate? The

combined IC signal ground pin and the ground return

of CINTVCC must return to the combined COUT (â) ter-

minals. The path formed by the top N-channel MOSFET,

Schottky diode and the CIN capacitor should have short

leads and PC trace lengths. The output capacitor (â)

terminals should be connected as close as possible

to the (â) terminals of the input capacitor by placing

the capacitors next to each other and away from the

Schottky loop described above.

3. Do the LTC3890 VFB pinsâ resistive dividers connect to

the (+) terminals of COUT? The resistive divider must be

connected between the (+) terminal of COUT and signal

ground. The feedback resistor connections should not

be along the high current input feeds from the input

capacitor(s).

4. Are the SENSEâ and SENSE+ leads routed together with

minimum PC trace spacing? The ï¬lter capacitor between

SENSE+ and SENSEâ should be as close as possible

to the IC. Ensure accurate current sensing with Kelvin

connections at the SENSE resistor.

5. Is the INTVCC decoupling capacitor connected close

to the IC, between the INTVCC and the power ground

pins? This capacitor carries the MOSFET driversâ cur-

rent peaks. An additional 1Î¼F ceramic capacitor placed

immediately next to the INTVCC and PGND pins can help

improve noise performance substantially.

6. Keep the switching nodes (SW1, SW2), top gate nodes

(TG1, TG2), and boost nodes (BOOST1, BOOST2) away

from sensitive small-signal nodes, especially from

the opposites channelâs voltage and current sensing

feedback pins. All of these nodes have very large and

fast moving signals and therefore should be kept on

the output side of the LTC3890 and occupy minimum

PC trace area.

7. Use a modiï¬ed star ground technique: a low impedance,

large copper area central grounding point on the same

side of the PC board as the input and output capacitors

with tie-ins for the bottom of the INTVCC decoupling

capacitor, the bottom of the voltage feedback resistive

divider and the SGND pin of the IC.

3890f

▷