MAX1623 Datasheet, PDF(6/12 Page) Maxim Integrated Products – 3A, Low-Voltage, Step-Down Regulator with Synchronous Rectification and Internal Switches

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MAX1623 Datasheet, PDF (6/12 Pages) Maxim Integrated Products – 3A, Low-Voltage, Step-Down Regulator with Synchronous Rectification and Internal Switches

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3A, Low-Voltage, Step-Down Regulator with

Synchronous Rectification and Internal Switches

1, 3, 5,

16,18, 20

2, 4, 6

15, 17, 19

Pin Description

NAME

SHDN

FBSEL

TOFF

GND

REF

COMP

VCC

PGND

FUNCTION

Connection to the internal power switches.

Power Input. Internally connected to the PMOS switch source. Connect to +5V.

Active-Low Shutdown Input. Connect to VCC for normal operation.

Feedback Select Input. See Table 1.

Off-Time Select Input. Connect a resistor from TOFF to GND to adjust the switch off-time, and there-

fore the frequency: tOFF = R TOFF (Âµs) . See Typical Operating Characteristics.

110kâ¦

Feedback input for both fixed-output and adjustable operating modes. Connect to the output directly

for fixed-voltage operation or to a resistor-divider for adjustable operating modes.

Analog Ground

Reference Output. Bypass with a minimum 0.1ÂµF capacitor to GND. See Internal Reference.

Integrator Capacitor Connection. Connect a 470pF (470pF to 2000pF range) capacitor to GND to set

the typical integration time-constant. See Integrator Amplifier.

Analog Supply-Voltage Input. Supplies internal analog circuitry. Connect to +5V. Bypass VCC with

10â¦ and 4.7ÂµF (Figure 2).

Power Ground. Internally connected to the NMOS synchronous rectifier source.

General Description

The MAX1623 current-mode, PWM, DC-DC regulator is

designed for 5V-input step-down applications. It fea-

tures a 55mâ¦ (typ) PMOS switch and a 60mâ¦ (typ)

NMOS synchronous-rectifier switch. Simple constant-off-

time control allows switching frequencies up to 350kHz.

Adjust the off-time with an external resistor RTOFF to

optimize performance trade-offs among efficiency, com-

ponent size, output switching noise, and cost. Idle Mode

operation enhances light-load efficiency by switching to

a pulse-skipping mode that reduces transition and gate-

charge losses. The power-switching circuit consists of

the IC and an LC output filter. The output voltage is the

average of the AC voltage at the switching node (LX).

The MAX1623 regulates the output voltage by changing

the PMOS switch on-time relative to the constant off-

time, thereby adjusting the duty cycle.

The MAX1623 contains six major circuit blocks (Figure 1):

a PWM comparator, a current-sense circuit, a PWM

logic block, an internal feedback mux, an off-time con-

trol block, and a 1.1V precision reference. The input

supply directly powers the internal blocks.

Modes of Operation

The load current determines the mode of operation:

Idle Mode (load currents less than 0.625A) or PWM

mode for inductor currents of 1.25A (which corre-

sponds to load currents greater than 0.625A). The

PWM current limit is continuously adjusted by the PWM

comparator and can vary from 0A to the maximum cur-

rent limit (4A). If the inductor current falls below the Idle

Mode threshold (1.25A), skip mode takes over.

Whenever the P-channel switch turns on, it stays on

until the sensed current reaches the active current limit.

The PWM current limit automatically adjusts with the

PMOS switch duty cycle required to generate the

desired output voltage. When the active current limit is

met, the PMOS switch turns off for the programmed

minimum off-time, and the N-channel synchronous rec-

tifier turns on. The synchronous rectifier stays on until

the P-channel switch turns back on or until the inductor

current reaches zero. At the end of the off-time, the P-

channel switch turns on again if the output voltage indi-

cates that energy is required at the output.

6 _______________________________________________________________________________________

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