MAX5955AEEE Maxim Integrated Products, MAX5955AEEE Datasheet - Page 9

MAX5955AEEE

Manufacturer Part Number

MAX5955AEEE

Description

Hot Swap & Power Distribution

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX5955AEEE.pdf (15 pages)

Specifications of MAX5955AEEE

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MAX5955AEEE

Manufacturer:

MAXIM/美信

Quantity:

20 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

MAX5955AEEE+T

Manufacturer:

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Quantity:

20 000

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After the startup period is complete, the slow compara-

tor is enabled and the device enters normal operation.

The comparator threshold voltage (V

from 25mV to 100mV. The slow-comparator response

time decreases to a minimum of 100µs with a large

overdrive voltage. Response time is 3ms for a 1mV over-

drive. The variable speed response time allows the

MAX5955/MAX5956 to ignore low-amplitude momentary

glitches, thus increasing system noise immunity. After

an extended overcurrent condition, a fault is generated,

both PGOODs are pulled low and the MOSFET gates

are discharged with a strong 3mA pulldown current.

During the startup period, the fast comparator regulates

the gate voltage to ensure that the voltage across the

sense resistor does not exceed the startup fast-com-

parator threshold voltage (V

two times the slow-comparator threshold (V

In normal operation, if the load current reaches the fast-

comparator threshold, a fault is generated, both

PGOODs are pulled low, and the MOSFET gates are dis-

charged with a strong 3mA pulldown current. This hap-

pens in the event of a serious current overload or a dead

short. The fast-comparator threshold voltage (V

scaled to four times the slow-comparator threshold

260ns (Figure 3).

The UVLO prevents the MAX5955/MAX5956 from turning

on the external MOSFETs until one input voltage exceeds

the UVLO threshold (2.4V) for t

MAX5956 use power from the higher input voltage rail for

the charge pumps. This allows for more efficient charge-

pump operation. The UVLO protects the external

MOSFETs from an insufficient gate-drive voltage. t

ensures that the board is fully inserted into the backplane

and that the input voltages are stable. Any input voltage

transient on both supplies below the UVLO threshold

reinitiates the t

The MAX5955B/MAX5956B latch the external MOSFETs

off when an overcurrent fault is detected. Toggling ON_

below 0.875V or one of the supply voltages

below/above the UVLO threshold for at least 100µs

clears the fault latch and reinitiates the startup period.

Similarly, the MAX5955A/MAX5956A turn the external

MOSFETs off when an overcurrent fault is detected,

SC,TH

Low-Voltage, Dual Hot-Swap Controllers with

). This comparator has a fast response time of

D,UVLO

Overcurrent Fault Management

Undervoltage Lockout (UVLO)

Slow-Comparator Normal Operation

Fast-Comparator Normal Operation

_______________________________________________________________________________________

Fast-Comparator Startup Period

and the startup period.

Latched and Autoretry

SU,TH

D,UVLO

), V

SC,TH

SU,TH

. The MAX5955/

) is adjustable

SC,TH

is scaled to

FC,TH

D,UVLO

Independent On/Off Control

) is

then automatically restart after the autoretry delay that

is internally set to 64 times t

delay, toggling ON_ below 0.875V does not clear the

fault latch. The autoretry can be overridden, causing

the startup period to begin immediately by toggling one

of the supply voltages below/above the UVLO thresh-

old. When toggling a supply voltage to clear a fault,

remember that the supply voltage must go below and

then above the UVLO threshold for at least 100µs

regardless of the final value of the supply voltage.

The MAX5955/MAX5956 monitor the output voltages with

the MON1 and MON2 window comparator inputs. These

voltage monitors are enabled after the startup period.

Once enabled, the voltage monitor detects a fault if

When the MAX5955 protection device detects an output

overvoltage/undervoltage fault on either MON1 or

MON2, both external MOSFET gates are discharged at

3mA and both PGOODs pull low. For the MAX5955A,

the part continuously attempts to restart after each

autoretry period. The part successfully restarts after the

fault is removed and after waiting the autoretry period.

For the MAX5955B, the GATEs are latched off until the

output voltage fault is removed and the fault latch is

cleared by toggling ON_ or by cycling one of the supply

voltages above/below the UVLO threshold.

When the MAX5956 monitoring device detects an out-

put overvoltage/undervoltage fault on either MON1 or

MON2, neither external MOSFET gates are affected,

but the PGOOD_ of the channel experiencing the fault

pulls low. Thus the fault is reported on the channel with

the problem, but the MAX5956 does not allow an output

overvoltage/undervoltage fault to disrupt operation by

shutting down the channels. The MAX5956’s PGOOD_

output immediately goes high impedance after the out-

put overvoltage/undervoltage fault is removed.

The voltage monitors do not react to output glitches of

less than 20µs. A capacitor from MON_ to GND increas-

es the effective glitch filter time. The voltage monitoring

function of the MAX5955/MAX5956 can be disabled by

connecting V

The status output is an open-drain output that pulls low

in response to one of the following conditions:

• Overcurrent fault

• Output undervoltage/overvoltage fault

PGOOD_ goes low when the corresponding channel is

forced off (ON_ < 0.875V) (Table 1).

MON

Output Overvoltage/Undervoltage Fault

_ is less than 543mV or greater than 687mV.

IN1

to MON1 and V

Status Outputs (PGOOD_)

START

IN2

. During the autoretry

to MON2.

Management

MAX5955AEEE Maxim Integrated Products, MAX5955AEEE Datasheet - Page 9

MAX5955AEEE

Specifications of MAX5955AEEE

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