MAX8664 Maxim Integrated Products, MAX8664 Datasheet - Page 9

MAX8664

Manufacturer Part Number

MAX8664

Description

Step-Down Controller

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX8664.pdf (26 pages)

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The MAX8664 dual-output PWM controller is a low-cost

solution for dual power-supply systems. It provides two

individual outputs that operate 180° out-of-phase to

minimize input capacitance requirements. Built-in dri-

vers are capable of driving external MOSFETs to deliv-

er up to 25A of current from each output. The MAX8664

operates from a 4.5V to a 5.5V or a 7.2V to 28V input

and generates output voltages from 0.6V up to 90% of

the input voltage on each channel. Total output error is

less than ±0.8% over load, line, and temperature.

The MAX8664 operates with a constant switching fre-

quency adjustable from 100kHz to 1MHz. Built-in boost

diodes reduce external component count. Digital soft-

start eliminates input inrush current during startup. The

second output has an optional REFIN2 input that takes

an external reference voltage, facilitating tracking supply

applications. Each output is capable of sourcing and

sinking current. Internal 6.5V and 5V linear regulators

provide power for gate drive and internal IC functions.

The MAX8664 has built-in protection against output over-

voltage, overcurrent, and thermal faults. The MAX8664B

latches off both controllers during a fault condition, while

the MAX8664A allows one controller to continue to func-

tion when there is a fault in the other controller.

The MAX8664 employs Maxim’s proprietary peak-volt-

age mode control architecture that provides superior

transient response during either load or line transients.

This architecture is easily stabilized using two resistors

and one capacitor for any type of output capacitors.

Fast transient response requires less output capaci-

tance, consequently reducing total system cost.

The peak-voltage mode PWM control scheme ensures

stable operation, simple compensation for any output

capacitor, and fast transient response. An on-chip inte-

grator removes any DC error due to the ripple voltage.

This control scheme is simple: when the output voltage

falls below the regulation threshold, the error compara-

tor begins a switching cycle by turning on the high-side

switch at the rising edge of the following clock cycle.

This switch remains on until the minimum on-time

expires and the output voltage is in regulation or the

current-limit threshold is exceeded. At this point, the

low-side synchronous rectifier turns on and remains on

until the rising edge of the first clock cycle after the out-

put voltage falls below the regulation threshold.

DC-DC Controller Architecture

Controller with Fast Transient Response

_______________________________________________________________________________________

Detailed Description

Low-Cost, Dual-Output, Step-Down

The internal VL low-dropout linear regulator of the

MAX8664A and MAX8664B provides the 6.5V supply

used for the gate drive. Connect a 4.7µF ceramic

capacitor from VL to PGND. When using a 4.5V to 5.5V

input supply, connect VL directly to IN.

The 5V supply used to power IC functions (V

erated by an internal 1.5V shunt regulator from VL.

Connect a 2.2µF ceramic capacitor from V

When using a 4.5V to 5.5V input supply, connect V

to IN through a 10Ω resistor.

The gate-drive voltage for the high-side MOSFETs is

generated using a flying capacitor boost circuit. The

capacitor between BST_ and LX_ is charged to the VL

voltage through the integrated BST_ diode during the

low-side MOSFET on-time. When the low-side MOSFET

is switched off, the BST_ voltage is shifted above the

LX_ voltage to provide the necessary turn-on voltage

a switch between BST_ and DH_ to turn the high-side

MOSFET on.

An internal 0.6V reference sets the feedback regulation

voltage. Controller 1 always uses the internal reference.

An external reference input is provided for controller 2.

To use the external reference, connect a 0 to 1.3V sup-

ply to REFIN2. This facilitates tracking applications. To

use the internal 0.6V reference for controller 2, connect

REFIN2 to V

When the V

threshold (3.15V falling typ), the undervoltage lockout

(UVLO) circuitry inhibits the switching of both con-

trollers, and forces the DL and DH gate drivers low.

When V

typ), the controllers begin the startup sequence and

resume normal operation.

When the MAX8664 detects an overcurrent condition,

DH is immediately pulled low. If the overcurrent condition

persists for four consecutive cycles, the controller latch-

es off and both DH_ and DL_ are pulled low. During soft-

start, when FB_ is less than 300mV, the controller latches

off on the first overcurrent condition. The protection cir-

cuit detects an overcurrent condition by sensing the

drain-source voltage across the high-side MOSFET(s).

) for the high-side MOSFET. The controller closes

High-Side Gate-Drive Supply (BST_)

rises above the UVLO threshold (3.5V rising

supply voltage drops below the UVLO

Output Overcurrent Protection

Undervoltage Lockout (UVLO)

Internal Linear Regulators

Voltage Reference

) is gen-

to GND.

MAX8664 Maxim Integrated Products, MAX8664 Datasheet - Page 9

MAX8664

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