Rainbow Electronics MAX1625 User Manual

MAX1624/MAX1625

High-Speed Step-Down Controllers with

Synchronous Rectification for CPU Power

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13

across the current-sense resistor (R1). When the induc-
tor current ramps up to the current-sense threshold, the
MOSFET turns off and interrupts the flow of current from
the supply. This causes the magnetic field in the induc-
tor to collapse, resulting in a voltage surge that forces
the rectifier diode (D1) or MOSFET body diode (N2) on
and keeps the inductor current flowing in the same
amplitude and direction. At this point, the synchronous
rectifier MOSFET turns on until the end of the cycle to
reduce conduction losses across the rectifier diode.
The current through the inductor ramps back down,

transferring the stored energy to the output filter capac-
itor and load. The output filter capacitor stores energy
when inductor current is high and releases it when
inductor current is low, smoothing the voltage delivered
to the load.

The MAX1624/MAX1625 use a current-mode pulse-
width-modulation (PWM) control scheme (Figures 3
and 4). The output voltage is regulated by switching at
a constant frequency and then modulating the peak
inductor current to change the energy transferred per
pulse and to adjust to changes in the load. The output

+

-

+

-

REF

REF4

AGND

REF3

REF2

REF

FB

D0–D4

PWROK

PDRV

NDRV

CC2

CC1

REF1

5

N

10k

40k

WINDOW

CONTROL AND

DRIVE LOGIC

OSCILLATOR

SLOPE

COMPENSATION

REF

AGND

V

CC

FREQ

REF

REF1

REF2

REF3

REF4

CSL

CSH

LG

BST

DH

LX

V

DD

DL

RESET

Q

Q

SET

PGND

MAX1624

Figure 3. MAX1624 Simplified Block Diagram