MAX1637 Datasheet, PDF(7/20 Page) Maxim Integrated Products – Miniature, Low-Voltage, Precision Step-Down Controller

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MAX1637 Datasheet, PDF (7/20 Pages) Maxim Integrated Products – Miniature, Low-Voltage, Precision Step-Down Controller

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Miniature, Low-Voltage,

Precision Step-Down Controller

VBIAS

+5V

NOMINAL

20â¦

VBATT

VCC

SYNC

VGG

0.1ÂµF

470pF

MAX1637 BST

REF

1ÂµF

SKIP

GND

PGND

CSH

CSL

1M**

ON/OFF

SHDN

0.01ÂµF**

4.7ÂµF

CMPSH-3

0.1ÂµF

Q2 *

*SEE RECTIFIER CLAMP DIODE SECTION

**OPTIONAL RC NETWORK FOR POWER-ON-RESET

R1 OUTPUT

Figure 1. Standard Application Circuit

______Standard Application Circuit

The basic MAX1637 buck converter (Figure 1) is easily

adapted to meet a wide range of applications where a

5V or lower supply is available. The components listed

in Table 1 represent a good set of trade-offs among

cost, size, and efficiency, while staying within the worst-

case specification limits for stress-related parameters

such as capacitor ripple current. Do not change the cir-

cuitâs switching frequency without first recalculating

component values (particularly inductance value at

maximum battery voltage).

The power Schottky diode across the synchronous rec-

tifier is optional because the MOSFETs chosen incorpo-

rate a high-speed silicon diode. However, installing the

Schottky will generally improve efficiency by about 1%.

If used, the Schottky diode DC current must be rated to

at least one-third of the maximum load current.

_______________Detailed Description

The MAX1637 is a BiCMOS, switch-mode power-supply

(SMPS) controller designed primarily for buck-topology

regulators in battery-powered applications where high

efficiency and low quiescent supply current are critical.

Light-load efficiency is enhanced by automatic idle-

mode operationâa variable-frequency, pulse-skipping

mode that reduces transition and gate-charge losses.

The step-down, power-switching circuit consists of two

N-channel MOSFETs, a rectifier, and an LC output filter.

Output voltage for this device is the average AC volt-

age at the switching node, which is regulated by

changing the duty cycle of the MOSFET switches. The

gate-drive signal to the high-side N-channel MOSFET,

which must exceed the battery voltage, is provided by

a flying-capacitor boost circuit that uses a 100nF

capacitor between BST and LX. Figure 2 shows the

major circuit blocks.

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