max5934aeeet Maxim Integrated Products, Inc., max5934aeeet Datasheet - Page 11

max5934aeeet

Manufacturer Part Number

max5934aeeet

Description

Max5934, Max5934a Positive High-voltage, Hot-swap Controllers With Selectable Fault Management And Status Polarity

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

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In latch mode, the MAX5934/MAX5934A turn the

MOSFET off and keep it off after an overcurrent fault.

After the fault condition goes away and TIMER falls

below 0.5V, recycle the power supplies or toggle ON

low and high again to unlatch the device.

In autoretry mode, the MAX5934/MAX5934A turn the

MOSFET off after an overcurrent fault occurs. After the

fault condition is removed, the device waits for TIMER to

fall below 0.5V and then automatically restarts. If the fault

is due to an overtemperature condition, the MAX5934/

MAX5934A wait for the die temperature to cool down

below the +130°C threshold before restarting.

The MAX5934/MAX5934A feature three power-good

outputs (PWRGD_) to indicate the status of three sepa-

rate voltages. PWRGD_ asserts if the device detects an

error condition.

PWRGD_ is true when FB_ voltages exceed the low-to-

high threshold voltage (V

FB_ voltages go lower than the high-to-low threshold

voltage (V

Connect external pullup resistors between PWRGD_

and OUT to pull up the PWRGD_ voltages to V

PWRGD2 can be used to indicate an overvoltage con-

dition on the main power-supply rail.

PWRGD3 asserts when GATE voltage has charged to

4.3V above the supply rail. PWRGD3 deasserts when

the TIMER voltage exceeds 1.233V threshold in response

to an extended fault condition.

The output polarity of PWRGD_ is determined by

POL_SEL. Drive POL_SEL high or leave it floating to

select PWRGD_ active high. Connect POL_SEL to GND

for PWRGD_ active low.

The MAX5934A operates from a +9V to +80V supply

voltage range and has a default UVLO set at +8.3V.

The MAX5934 operates from a +33V to +80V supply

voltage range and has a default UVLO set at +31V. The

UVLO thresholds are adjustable using a resistive

divider connected to V

When the input voltage (or V

threshold, the MOSFET is held off. When the input volt-

age (or V

MAX5934/MAX5934A go into normal operation (or

begin to turn on the external MOSFET).

Selectable Fault Management and Status Polarity

Positive High-Voltage, Hot-Swap Controllers with

FB_L

Power-Good (PWRGD_ ) Detection

) is above the UVLO threshold, the

Undervoltage Lockout (UVLO)

______________________________________________________________________________________

FB_H

(see R2 and R3 in Figure 5).

). PWRGD_ is false when

) is below the UVLO

OUT

To adjust the UVLO threshold, connect an external

resistive divider from V

ON to GND. The following equation is used to calculate

the new UVLO threshold:

where V

The supply bypass capacitors on a circuit board can

draw high peak currents from the backplane power bus

as they charge when the circuit boards are inserted

into a live backplane. This can cause permanent dam-

age to the connector pins and glitch the system supply

causing other boards in the system to reset.

The MAX5934/MAX5934A are capable of controlling a

board’s power-supply voltage allowing for the safe

insertion or removal of a board from a live backplane.

These devices provide undervoltage and overcurrent

protection and power-good output signals (PWRGD_).

The MAX5934/MAX5934A provide sophisticated overcur-

rent protection to ensure robust operation under output-

current-transient and overcurrent fault conditions. The

current-protection circuit employs a foldback current limit

and a short-circuit or excessive output-current protection.

The MAX5934/MAX5934A offer a current foldback fea-

ture where the current folds back as a function of the

output voltage that is sensed at FB1. As Figure 6 illus-

trates, the voltage across R

when FB1 drops below 0.5V and stops at 12mV when

For R

and goes down to 480mA at short circuit (output short-

ed to GND).

In addition, the MAX5934/MAX5934A feature an

adjustable overcurrent response time. The required

time to regulate the MOSFET current depends on the

input capacitance of the MOSFET, GATE capacitor

(C1), compensation resistor (R1), and the internal delay

from SENSE to GATE. Figure 7 shows the propagation

delay from a voltage step at SENSE until GATE starts to

fall, as a function of overdrive.

FB1

= 0V. The maximum current-limit equation is:

SENSE

REF

is typically 1.233V.

= 0.025Ω, the current limit is set to 1.88A

UVLO_TH

Applications Information

LIMIT

= V

= 47mV / R

(or V

REF

Overcurrent Protection

Hot-Circuit Insertion

SENSE

(1 + (R2 / R3))

) to ON and then from

SENSE

decreases linearly

max5934aeeet Maxim Integrated Products, Inc., max5934aeeet Datasheet - Page 11

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