MAX5902AAETT-T Datasheet, PDF(8/14 Page) Maxim Integrated Products – +72V, SOT23/TDFN, Simple Swapper Hot-Swap Controllers

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MAX5902AAETT-T Datasheet, PDF (8/14 Pages) Maxim Integrated Products – +72V, SOT23/TDFN, Simple Swapper Hot-Swap Controllers

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+72V, SOT23/TDFN, Simple Swapper Hot-Swap

Controllers

5V LOGIC

GND

HOT-SWAP CONTROLLER

47kâ¦

MAX5902

MAX5903

ON/OFF

GND

LOGIC CONTROL OF 3.3V OR LESS MAY BE CONNECTED

DIRECTLY TO THE MAX5902/MAX5903. FOR 5V LOGIC

CONTROL INSERT A SERIES 47kâ¦ RESISTOR AS SHOWN.

Figure 5. Logic Control

+9V TO +72V

GND

HOT-SWAP CONTROLLER

100kâ¦

MAX5902

ON/OFF

GND

Figure 6. Defeating Undervoltage Lockout

Turn-On and Turn-Off Delays

After power is applied, or ON/OFF is released, there is

a 150ms delay (tON) before the gate ramp is started.

This delay is also the automatic restart time delay.

In the event of a circuit-breaker condition or an over-

temperature fault condition, the turn-off delay is less

than 4Âµs. An undervoltage condition must exist for at

least 10ms (tOFF) before the MAX5902/MAX5903 turns

off the external MOSFET. ON/OFF must be held low for

at least 10ms (tOFF) before the MAX5902/MAX5903

turns off the external MOSFET. Turn-off delay minimizes

spurious shutdowns due to noisy signals or momentary

voltage spikes, as well as preventing accidental reset-

ting of the circuit-breaker latch (MAX5902L/MAX5903L).

Thermal Shutdown

A thermal shutdown feature helps protect the external

MOSFET. If the die temperature of the MAX5902/

MAX5903 exceeds +125Â°C, the MOSFET is turned off.

For accurate performance the MAX5902/MAX5903

must be in close thermal contact with the external MOS-

FET. See the Layout Guidelines section for information.

Due to the low power dissipation of the

MAX5902/MAX5903, its junction temperature will typi-

cally be within a few degrees of the MOSFET. All ver-

sions of the MAX5902/MAX5903 automatically restart

from a temperature fault when the junction temperature

drops below +110Â°C.

Undervoltage Lockout

The MAX5902/MAX5903 turns off the external MOSFET

if the magnitude of the input voltage is below the level

set by ON/OFF for longer than 10ms (tOFF). If ON/OFF

is left unconnected, the lockout voltage (VUVLO)

defaults to 31.5V. VUVLO may also be set to any value

within the power-supply range by using external resis-

tors. To set the lockout voltage to a value between +9V

and +72V use a resistor divider connected between VS

and GND, with the center node of the divider connect-

ed to ON/OFF. For example, use a 3kâ¦ resistor (R1 in

Figure 3) from ON/OFF to GND and calculate the other

resistor, R2, using:

â VUVLO

ââ VON / OFF

â 1â â

where VUVLO is the desired lockout voltage, and

VON/OFF is the ON/OFF reference threshold specified in

the Electrical Characteristics table (typically 1.26V).

Figure 3 shows an example circuit with VUVLO set for

+18V. To defeat the UVLO simply connect a single

100kâ¦ resistor between ON/OFF and VS, as shown in

Figure 6.

The Power-Good Output

The power-good output, PGOOD (PGOOD), is open-

drain and asserts when the external MOSFET is fully

enhanced and VSD is less than the circuit-breaker

threshold (VCB). For versions without the circuit-breaker

function (MAX5902N/MAX5903N), PGOOD (PGOOD)

asserts when the external MOSFET is fully enhanced.

PGOOD (PGOOD) deasserts within 4Âµs when a circuit-

breaker event occurs or if the die temperature exceeds

+125Â°C. PGOOD (PGOOD) deasserts if VS < VUVLO for

longer than 10ms or ON/OFF is held low for longer than

10ms.

The MAX5902 PGOOD is active-low and the MAX5903

PGOOD is active-high. Both are open-drain n-channel

MOSFETs with their sources connected to GND, and

can withstand up to +72V.

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