ADM1062ASUZ Analog Devices Inc, ADM1062ASUZ Datasheet - Page 13

ADM1062ASUZ

Manufacturer Part Number

ADM1062ASUZ

Description

IC SUPERVISOR/SEQUENCER 48-TQFP

Manufacturer

Analog Devices Inc

Type

Sequencerr

Datasheet

1.EVAL-ADM1062LFEB.pdf (36 pages)

Specifications of ADM1062ASUZ

Number Of Voltages Monitored

Output

Programmable

Voltage - Threshold

Adjustable/Selectable

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

48-TQFP, 48-VQFP

For Use With

EVAL-ADM1062TQEBZ - BOARD EVALUATION FOR ADM1062TQEVAL-ADM1062LFEBZ - BOARD EVALUATION FOR ADM1062LF

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Reset

Reset Timeout

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Current page: 13 of 36
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POWERING THE ADM1062

The ADM1062 is powered from the highest voltage input on either

the positive-only supply inputs (VPx) or the high voltage supply

input (VH). This technique offers improved redundancy because

the device is not dependent on any particular voltage rail to keep

it operational. The same pins are used for supply fault detection

(see the Supply Supervision section). A V

device chooses which supply to use. The arbitrator can be

considered an OR’ing of five low dropout regulators (LDOs)

together. A supply comparator chooses the highest input to

provide the on-chip supply. There is minimal switching loss with

this architecture

(~0.2 V), resulting in the ability to power the ADM1062 from

a supply as low as 3.0 V. Note that the supply on the VXx pins

cannot be used to power the device.

An external capacitor to GND is required to decouple the on-chip

supply from noise. This capacitor should be connected to the

VDDCAP pin, as shown in Figure 21. The capacitor has another

use during brownouts (momentary loss of power). Under these

conditions, when the input supply (VPx or VH) dips transiently

below V

off so that it does not pull V

then act as a reservoir to keep the device active until the next

highest supply takes over the powering of the device. A 10 μF

capacitor is recommended for this reservoir/decoupling function.

The VH input pin can accommodate supplies up to 14.4 V, which

allows the ADM1062 to be powered using a 12 V backplane supply.

In cases where this 12 V supply is hot swapped, it is recommended

that the ADM1062 not be connected directly to the supply. Suitable

precautions, such as the use of a hot swap controller, should be

taken to protect the device from transients that could cause

damage during hot swap events.

, the synchronous rectifier switch immediately turns

down. The V

arbitrator on the

capacitor can

Rev. B | Page 13 of 36

When two or more supplies are within 100 mV of each other,

the supply that first takes control of V

if VP1 is connected to a 3.3 V supply, V

mately 3.1 V through VP1. If VP2 is then connected to another

3.3 V supply, VP1 still powers the device, unless VP2 goes 100 mV

higher than VP1.

VP1

VP2

VP3

VP4

Figure 21. V

COMPARATOR

SUPPLY

Arbitrator Operation

keeps control. For example,

4.75V

powers up to approxi-

LDO

OUT

ADM1062

VDDCAP

INTERNAL

DEVICE

SUPPLY

ADM1062ASUZ Analog Devices Inc, ADM1062ASUZ Datasheet - Page 13

ADM1062ASUZ

Specifications of ADM1062ASUZ

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