EVAL-ADM1276EBZ Analog Devices, EVAL-ADM1276EBZ Datasheet - Page 33

EVAL-ADM1276EBZ

Manufacturer Part Number

EVAL-ADM1276EBZ

Description

Power Management IC Development Tools EVALUATION BOARD

Manufacturer

Analog Devices

Type

Hot Swap & Power Distributionr

Series

ADM1276r

Datasheet

1.EVAL-ADM1276EBZ.pdf (48 pages)

Specifications of EVAL-ADM1276EBZ

Rohs

yes

Tool Is For Evaluation Of

ADM1276

Input Voltage

20 V

Factory Pack Quantity

Current page: 33 of 48
Download datasheet (643Kb)

Data Sheet

GPO2/ ALERT2 PIN BEHAVIOR

The ADM1276 provides a very flexible alert system, whereby

one or more fault/warning conditions can be indicated to an

external device.

FAULTS AND WARNINGS

A PMBus fault on the ADM1276 is always generated due to an

analog event and causes a change in state in the hot swap output,

turning it off. The three defined fault sources are as follows:

•

Faults are continuously monitored, and, as long as power is

applied to the device, they cannot be disabled. When a fault

occurs, a corresponding status bit is set in one or more

STATUS_xxx registers.

A value of 1 in a status register bit field always indicates a fault

or warning condition. Fault and warning bits in the status

registers are latched when set to 1. To clear a latched bit to 0—

provided that the fault condition is no longer active—use the

CLEAR_FAULTS command or use the OPERATION command

to turn the hot swap output off and then on again.

A warning is less severe than a fault and never causes a change

in the state of the hot swap controller. The sources of a warning

are defined as follows:

•

GENERATING AN ALERT

A host device can periodically poll the ADM1276 using the

status commands to determine whether a fault/warning is

active. However, this polling is very inefficient in terms of

software and processor resources. The ADM1276 has a

GPO2/ ALERT2 output pin that can be used to generate

interrupts to a host processor.

By default at power-up, the open-drain GPO2/ ALERT2

output is high impedance, so the pin can be pulled high

through a resistor. The FET health bad warning is active by

default on the GPO2/ ALERT2 pin at power-up.

Any one or more of the faults and warnings listed in the Faults

and Warnings section can be enabled and cause an alert, making

Undervoltage (UV) event detected on the UV pin.

Overvoltage (OV) event detected on the OV pin.

Overcurrent (OC) event that causes a hot swap timeout.

CML: a communications error occurred on the I

HS timer was active (HSTA): the current regulation was

active, but did not necessarily shut the system down.

IOUT OC warning from the ADC.

IOUT Warning 2 from the ADC.

VIN UV warning from the ADC.

VIN OV warning from the ADC.

VOUT UV warning from the ADC.

VOUT OV warning from the ADC.

PIN OP warning from the VIN × IOUT calculation.

C bus.

Rev. B | Page 33 of 48

the GPO2/ ALERT2 pin active. By default, the active state of the

GPO2/ ALERT2 pin is low.

For example, to use GPO2/ ALERT2 to monitor the VOUT UV

warning from the ADC, the followings steps must be

performed:

If a VOUT sample is taken that is below the configured

VOUT UV value, the GPO2/ ALERT2 pin is taken low, signaling

an interrupt to a processor.

HANDLING/CLEARING AN ALERT

When faults/warnings are configured on the GPO2/ ALERT2 pin,

the pin becomes active to signal an interrupt to the processor.

(The pin is active low, unless inversion is enabled.) The

ALERT2 signal on the GPO2/ ALERT2 pin functions as an

SMBAlert.

A processor can respond to the interrupt in one of two basic ways:

•

SMBus ALERT RESPONSE ADDRESS

The SMBus alert response address (ARA) is a special address

that can be used by the bus host to locate any devices that need

to talk to it. A host typically uses a hardware interrupt pin to

monitor the SMBus alert pins of a number of devices. When the

host interrupt occurs, the host issues a message on the bus using

the SMBus receive byte or receive byte with PEC protocol.

The special address used by the host is 0x0C. Any devices that

have an SMBAlert signal return their own 7-bit address as the

seven MSBs of the data byte. The LSB value is not used and can

be either 1 or 0. The host reads the device address from the

received data byte and proceeds to handle the alert condition.

Set a threshold level with the VOUT_UV_WARN_LIMIT

command.

Start the power monitor sampling on VOUT.

If there is only one device on the bus, the processor can

simply read the status bytes and issue a CLEAR_FAULTS

command to clear all the status bits, which causes the deas-

sertion of the GPO2/ ALERT2 line. If there is a persistent

fault—for example, an undervoltage on the input—the

status bits remain set after the CLEAR_FAULTS command

is executed because the fault has not been removed. However,

the GPO2/ ALERT2 line is not pulled low unless a new fault

or warning becomes active. If the cause of the SMBAlert is

a power monitor generated warning and the power monitor

is running continuously, the next sample generates a new

SMBAlert after the CLEAR_FAULTS command is issued.

If there are several devices on the bus, the processor can

issue an SMBus alert response address command to find

out which device asserted the SMBAlert line. The processor

can read the status bytes from that device and issue a

CLEAR_FAULTS command.

ADM1276

EVAL-ADM1276EBZ Analog Devices, EVAL-ADM1276EBZ Datasheet - Page 33

EVAL-ADM1276EBZ

Specifications of EVAL-ADM1276EBZ

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