ADM1069 Analog Devices, ADM1069 Datasheet - Page 19

ADM1069

Manufacturer Part Number

ADM1069

Description

Compact Multi- Voltage Sequencer and Supervisor with Margining Control

Manufacturer

Analog Devices

Datasheet

1.ADM1069.pdf (32 pages)

Specifications of ADM1069

# Supplies Monitored

Volt Monitoring Accuracy

# Output Drivers

Fet Drive/enable Output

Both

Voltage Readback

12-bit ADC

Supply Adj/margining

12-bit ADC+4 DACs

Package

32 ld LQFP,40 ld LFCSP

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Current page: 19 of 32
Download datasheet (532Kb)

Monitoring Fault Detector

The monitoring fault detector block is used to detect a failure on an

input. The logical function implementing this is a wide OR gate

that can detect when an input deviates from its expected condition.

The clearest demonstration of the use of this block is in the

PWRGD state, where the monitor block indicates that a failure

on one or more of the VP1, VP2, or VP3 inputs has occurred.

No programmable delay is available in this block because the

triggering of a fault condition is likely to be caused by a supply

falling out of tolerance. In this situation, the device needs to react as

quickly as possible. Some latency occurs when moving out of this

state because it takes a finite amount of time (~20 μs) for the state

configuration to download from EEPROM into the SE. Figure 29

is a block diagram of the monitoring fault detector.

VP1

VX4

LOGIC INPUT CHANGE

OR FAULT DETECTION

Figure 29. Monitoring Fault Detect or Block Diagram

SUPPLY FAULT

DETECTION

WARNINGS

MONITORING FAULT

DETECTOR

1-BIT FAULT

DETECTOR

1-BIT FAULT

DETECTOR

1-BIT FAULT

DETECTOR

MASK

SENSE

MASK

SENSE

MASK

FAULT

Rev. C | Page 19 of 32

Timeout Detector

The timeout detector allows the user to trap a failure to ensure

proper progress through a power-up or power-down sequence.

In the sample application shown in Figure 28, the timeout next-

state transition is from the EN3V3 and EN2V5 states. For the

EN3V3 state, the signal 3V3ON is asserted on the PDO1 output

pin upon entry to this state to turn on a 3.3 V supply.

This supply rail is connected to the VP2 pin, and the sequence

detector looks for the VP2 pin to go above its undervoltage

threshold, which is set in the supply fault detector (SFD)

attached to that pin.

The power-up sequence progresses when this change is detected.

If, however, the supply fails (perhaps due to a short circuit over-

loading this supply), the timeout block traps the problem. In this

example, if the 3.3 V supply fails within 10 ms, the SE moves to

the DIS3V3 state and turns off this supply by bringing PDO1

low. It also indicates that a fault has occurred by taking PDO3

high. Timeout delays of 100 μs to 400 ms can be programmed.

FAULT AND STATUS REPORTING

The ADM1069 has a fault latch for recording faults. Two registers,

FSTAT1 and FSTAT2, are set aside for this purpose. A single bit

is assigned to each input of the device, and a fault on that input

sets the relevant bit. The contents of the fault register can be

read out over the SMBus to determine which input(s) faulted.

The fault register can be enabled/disabled in each state. To latch

data from one state, ensure that the fault latch is disabled in the

following state. This ensures that only real faults are captured

and not, for example, undervoltage conditions that may be present

during a power-up or power-down sequence.

The ADM1069 also has a number of status registers. These

include more detailed information, such as whether an under-

voltage or overvoltage fault is present on a particular input. The

status registers also include information on ADC limit faults.

Note that the data in the status registers is not latched in any

way and, therefore, is subject to change at any time.

See the AN-721 Application Note at

details about the ADM1069 registers.

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ADM1069 Analog Devices, ADM1069 Datasheet - Page 19

ADM1069

Specifications of ADM1069

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