Rainbow Electronics MAX5048 User Manual

MAX5048

7.6A, 12ns, SOT23 MOSFET Driver

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7

The quiescent current is 0.95mA typical. The current
required to charge and discharge the internal nodes is
frequency dependent (see the Typical Operating
Characteristics). The MAX5048A/MAX5048B power dis-
sipation when driving a ground referenced resistive
load is:

P = D x R

ON(MAX)

x I

LOAD2

where D is the fraction of the period the MAX5048A/
MAX5048Bs’ output pulls high, R

ON (MAX)

is the maxi-

mum on-resistance of the device with the output high
(P-channel), and I

LOAD

is the output load current of the

MAX5048A/MAX5048B.

For capacitive loads, the power dissipation is:

P = C

LOAD

x (V+)

2

x FREQ

where C

LOAD

is the capacitive load, V+ is the supply

voltage, and FREQ is the switching frequency.

Layout Information

The MOSFET drivers MAX5048A/MAX5048B source-
and-sink large currents to create very fast rise and fall
edges at the gate of the switching MOSFET. The high
di/dt can cause unacceptable ringing if the trace
lengths and impedances are not well controlled. The

following PC board layout guidelines are recommended
when designing with the MAX5048A/MAX5048B:

• Place one or more 0.1µF decoupling ceramic capaci-

tor(s) from V+ to GND as close to the device as possi-
ble. At least one storage capacitor of 10µF (min)
should be located on the PC board with a low resis-
tance path to the V+ pin of the MAX5048A/MAX5048B.

• There are two AC current loops formed between the

device and the gate of the MOSFET being driven.
The MOSFET looks like a large capacitance from
gate to source when the gate is being pulled low.
The active current loop is from N_OUT of the
MAX5048A/MAX5048B to the MOSFET gate to the
MOSFET source and to GND of the MAX5048A/
MAX5048B. When the gate of the MOSFET is being
pulled high, the active current loop is from P_OUT of
the MAX5048A/MAX5048B to the MOSFET gate to
the MOSFET source to the GND terminal of the
decoupling capacitor to the V+ terminal of the
decoupling capacitor and to the V+ terminal of the
MAX5048A/MAX5048B. While the charging current
loop is important, the discharging current loop is crit-
ical. It is important to minimize the physical distance
and the impedance in these AC current paths.

IN+

V

IL

90%

10%

t

D–OFF

P_OUT AND

N_OUT

TIED

TOGETHER

t

D–ON

t

F

t

R

IN+

IN-

V+

V+

C

L

N_OUT

GND

P_OUT

TEST CIRCUIT

TIMING DIAGRAM

MAX5048A
MAX5048B

INPUT

OUTPUT

V

IH

Figure 1. Timing Diagram and Test Circuit