MAX5068 Datasheet, PDF(9/20 Page) Maxim Integrated Products – High-Frequency, Current-Mode PWM Controller with Accurate Programmable Oscillator

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MAX5068 Datasheet, PDF (9/20 Pages) Maxim Integrated Products – High-Frequency, Current-Mode PWM Controller with Accurate Programmable Oscillator

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High-Frequency, Current-Mode PWM Controller

with Accurate Programmable Oscillator

Detailed Description

The MAX5068 is a current-mode PWM controller for use

in isolated and nonisolated power-supply applications.

A bootstrap UVLO with a programmable hysteresis,

very low startup, and low operating current result in

high-efficiency universal-input power supplies. In addi-

tion to the internal bootstrap UVLO, the device also

offers programmable input startup and turn-off volt-

ages, programmed through the UVLO/EN input. When

using the MAX5068 in the bootstrapped mode, if the

power-supply output is shorted, the tertiary winding

voltage drops below the 10V threshold, causing the

bootstrap UVLO to turn off the gate drive to the external

power MOSFET, reinitiating a startup sequence with

soft-start.

The MAX5068 includes a cycle-by-cycle current limit

that turns off the gate drive to the external MOSFET

during an overcurrent condition. The MAX5068 integrat-

ing fault protection reduces average power dissipation

during persistent fault conditions (see the Integrating

Fault Protection section).

The MAX5068 features a very accurate, wide-range,

programmable oscillator that simplifies and optimizes

the design of the magnetics. The MAX5068A/C/D are

well suited for universal-input (rectified 85VAC to

265VAC) or telecom (-36VDC to -72VDC) power sup-

plies. The MAX5068B/E/F are well suited for low-input

voltage (10.8VDC to 24VDC) power supplies.

The MAX5068 high-frequency, universal input, offline/

telecom, current-mode PWM controller integrates all the

building blocks necessary for implementing AC-DC and

DC-DC fixed-frequency power supplies. Isolated or non-

isolated power supplies are easily constructed using

either primary- or secondary-side regulation. Current-

mode control with leading-edge blanking simplifies con-

trol-loop design, and an external slope-compensation

control stabilizes the current loop when operating at

duty cycles above 50% (MAX5068C/D/E/F). The

MAX5068A/B limit the maximum duty cycle to 50% for

use in single-ended forward converters. The

MAX5068C/D/E/F allow duty cycles up to 75% for use in

flyback converters.

An input undervoltage lockout (UVLO) programs the

input-supply startup voltage and ensures proper opera-

tion during brownout conditions. An external voltage-

divider programs the supply startup voltage. The

MAX5068A/B/D/F feature a programmable UVLO hys-

teresis. The MAX5068A/C/D feature an additional internal

bootstrap UVLO with large hysteresis that requires a min-

imum startup voltage of 23.6V. The MAX5068B/E/F start

up from a minimum voltage of 10.8V. Internal digital soft-

start reduces output-voltage overshoot at startup.

A single external resistor programs the switching fre-

quency from 12.5kHz to 1.25MHz. The MAX5068A/B/C/E

provide a SYNC input for synchronization to an external

clock. The maximum FET driver duty cycle is 50% for the

MAX5068A/B, and 75% for the MAX5068C/D/E/F.

Integrating fault protection ignores transient overcurrent

conditions for a set length of time. The length of time is

programmed by an external capacitor. The internal ther-

mal-shutdown circuit protects the device if the junction

temperature should exceed +170Â°C.

Power supplies designed with the MAX5068 use a

high-value startup resistor, R1, which charges a reser-

voir capacitor, C1 (Figure 1). During this initial period,

while the voltage is less than the internal bootstrap

UVLO threshold, the device typically consumes only

47ÂµA of quiescent current. This low startup current and

the large bootstrap UVLO hysteresis help to minimize

the power dissipation across R1, even at the high end

of the universal AC input voltage (265VAC).

The MAX5068 includes a cycle-by-cycle current limit

that turns off the gate to the external MOSFET during an

overcurrent condition. When using the MAX5068A/C/D

in the bootstrap mode (if the power-supply output is

shorted), the tertiary winding voltage drops below the

9.74V bootstrap UVLO to turn off the gate to the exter-

nal power MOSFET. This reinitiates a startup sequence

with soft-start.

Current-Mode Control

The MAX5068 offers a current-mode control operation

feature, such as leading-edge blanking with a dual

internal path that only blanks the sensed current signal

applied to the input of the PWM controller. The current-

limit comparator monitors CS at all times and provides

cycle-by-cycle current limit without being blanked. The

leading-edge blanking of the CS signal prevents the

PWM comparator from prematurely terminating the on

cycle. The CS signal contains a leading-edge spike

that results from the MOSFET gate charge current, and

the capacitive and diode reverse-recovery current of

the power circuit. Since this leading-edge spike is nor-

mally lower than the current-limit comparator threshold,

current limiting is provided under all conditions.

Use the MAX5068C/D/E/F in flyback applications where

wide line voltage and load-current variations are

expected. Use the MAX5068A/B for forward/flyback

converters where the maximum duty must be limited to

less than 50%.

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