MAX1584 Datasheet, PDF(17/29 Page) Maxim Integrated Products

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MAX1584 Datasheet, PDF (17/29 Pages) Maxim Integrated Products – 5-Channel Slim DSC Power Supplies

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to drive an N-channel MOSFET. Its feedback (FB1)

threshold is 1.25V.

In the MAX1584, AUX2 is identical to AUX1.

AUX2

In the MAX1585, AUX2 is an inverting controller that

generates a regulated negative output voltage, typically

for CCD and LCD bias. This is handy in height-limited

designs where transformers might not be desired.

The AUX2 MOSFET driver (DL2) in the MAX1585 is

designed to drive P-channel MOSFETs. DL2 swings

from GND to PVSU. See Figure 8 for a typical inverter

configuration.

AUX3 DC-DC Step-Down Controller

AUX3 can be used for conventional DC-DC step-down

(buck) designs (Figure 1). Its output (DL3) is designed to

drive a P-channel MOSFET and swings from GND to

PVSU. Its feedback (FB3) threshold is 1.25V.

Master/Slave Configurations

The MAX1584/MAX1585 support the MAX1801 slave

PWM controllers that obtain input power, a voltage ref-

erence, and an oscillator signal directly from the

MAX1584/MAX1585 master. The master/slave configu-

ration allows channels to be easily added and mini-

mizes system cost by eliminating redundant circuitry.

The slaves also control the harmonic content of noise

since their operating frequency is synchronized to that

of the MAX1584/MAX1585 master converter. A

MAX1801 connection to the MAX1584/MAX1585 is

shown in Figure 12.

Status Outputs (SDOK, AUX1OK, SCF)

The MAX1584/MAX1585 include three versatile status

outputs that can provide information to the system. All

are open-drain outputs and can directly drive MOSFET

switches to facilitate sequencing, disconnect loads

during overloads, or perform other hardware-based

functions.

SDOK pulls low when the step-down has successfully

completed soft-start. SDOK goes high impedance in

shutdown, overload, and thermal limit. A typical use for

SDOK is to enable 3.3V power to the CPU I/O after the

CPU core is powered up (Figure 13), thus providing safe

sequencing in hardware without system intervention.

AUX1OK pulls low when the AUX1 controller has suc-

cessfully completed soft-start. AUX1OK goes high

impedance in shutdown, overload, and thermal limit. A

typical use for AUX1OK is to drive a P-channel MOSFET

that gates 5V power to the CCD until the +15V CCD bias

(generated by AUX1) is powered up (Figure 14).

SCF goes high (high impedance, open drain) when

overload protection occurs. Under normal operation,

SCF pulls low. SCF can drive a high-side P-channel

MOSFET switch that can disconnect a load during

power-up or when a channel turns off in response to a

logic command or an overload. Several connections

are possible for SCF. One is shown in Figure 15, where

SCF provides load disconnect for the step-up on fault

and power-up.

Soft-Start

The MAX1584/MAX1585 channels feature a soft-start

function that limits inrush current and prevents exces-

sive battery loading at startup by ramping the output

voltage of each channel up to the regulation voltage.

This is accomplished by ramping the internal reference

inputs to each channel error amplifier from 0V to the

1.25V reference voltage over a period of 4096 oscillator

cycles (16ms at 500kHz) when initial power is applied

or when a channel is enabled. Soft-start is not included

in the step-up converter in order to avoid limiting start-

up capability with loading.

The step-down soft-start ramp takes half the time (2048

clock cycles) of the other channel ramps. This allows

the step-down and AUX3 output (when set to 3.3V) to

track each other and rise at nearly the same dV/dt rate

on power-up. Once the step-down output reaches its

regulation point (1.5V or 1.8V typ), the AUX3 output

(3.3V typ) continues to rise at the same ramp rate.

Fault Protection

The MAX1584/MAX1585 have robust fault and overload

protection. After power-up, the device is set to detect

an out-of-regulation state that could be caused by an

overload or short. If any DC-DC converter channel

(step-up, step-down, or any of the auxiliary controllers)

remains faulted for 100,000 clock cycles (200ms at

500kHz), then all outputs latch off until the step-up DC-

DC converter is reinitialized by the ONSU pin or by

cycling the input power. The fault-detection circuitry for

any channel is disabled during its initial turn-on soft-

start sequence.

An exception to the standard fault behavior is that there

is no 100,000 clock-cycle delay in entering the fault

state if the step-up output (PVSU) is dragged below its

2.5V UVLO threshold or is shorted. The step-up UVLO

immediately triggers and shuts down all channels. The

step-up then continues to attempt to start. If the step-up

output short remains, these attempts do not succeed

since PVSU remains near ground.

If a soft-short or overload remains on PVSU, the startup

oscillator switches the internal N-channel MOSFET, but

fault is retriggered if regulation is not achieved by the

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