ADM1069ASTZ Analog Devices Inc, ADM1069ASTZ Datasheet - Page 16

ADM1069ASTZ

Manufacturer Part Number

ADM1069ASTZ

Description

IC SUPERVISOR/SEQUENCER 32-LQFP

Manufacturer

Analog Devices Inc

Type

Sequencerr

Datasheet

1.EVAL-ADM1069LQEBZ.pdf (32 pages)

Specifications of ADM1069ASTZ

Number Of Voltages Monitored

Output

Programmable

Voltage - Threshold

8 Selectable Threshold Combinations

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

32-LQFP

For Use With

EVAL-ADM1069LQEBZ - BOARD EVALUATION FOR ADM1069LQ

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Reset

Reset Timeout

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ADM1069

OUTPUTS

SUPPLY SEQUENCING THROUGH

CONFIGURABLE OUTPUT DRIVERS

Supply sequencing is achieved with the ADM1069 using the

programmable driver outputs (PDOs) on the device as control

signals for supplies. The output drivers can be used as logic

enables or as FET drivers.

The sequence in which the PDOs are asserted (and, therefore, the

supplies are turned on) is controlled by the sequencing engine (SE).

The SE determines what action is taken with the PDOs based on

the condition of the ADM1069 inputs. Therefore, the PDOs can be

set up to assert when the SFDs are in tolerance, the correct input

signals are received on the VXx digital pins, no warnings are

received from any of the inputs of the device, and at other times.

The PDOs can be used for a variety of functions. The primary

function is to provide enable signals for LDOs or dc-to-dc

converters that generate supplies locally on a board. The PDOs

can also be used to provide a PWRGD signal, when all the SFDs

are in tolerance, or a RESET output if one of the SFDs goes out

of specification (this can be used as a status signal for a DSP,

FPGA, or other microcontroller).

The PDOs can be programmed to pull up to a number of

different options. The outputs can be programmed as follows:

•

The last option (available only on PDO1 to PDO6) allows the

user to directly drive a voltage high enough to fully enhance an

external N-FET, which is used to isolate, for example, a card-

side voltage from a backplane supply (a PDO can sustain greater

than 10.5 V into a 1 μA load). The pull-down switches can also

be used to drive status LEDs directly.

Open-drain (allowing the user to connect an external pull-

up resistor).

Open-drain with weak pull-up to V

Open-drain with strong pull-up to V

Open-drain with weak pull-up to VPx.

Open-drain with strong pull-up to VPx.

Strong pull-down to GND.

Internally charge-pumped high drive

(12 V, PDO1 to PDO6 only) .

SMBus DATA

CLK DATA

SE DATA

CFG4 CFG5 CFG6

Figure 25. Programmable Driver Output

Rev. B | Page 16 of 32

SEL

VP1

The data driving each of the PDOs can come from one of three

sources. The source can be enabled in the PDOxCFG configuration

The data sources are as follows:

•

DEFAULT OUTPUT CONFIGURATION

All of the internal registers in an unprogrammed ADM1069 device

from the factory are set to 0. Because of this, the PDOx pins are

pulled to GND by a weak (20 kΩ) on-chip pull-down resistor.

As the input supply to the ADM1069 ramps up on VPx or VH,

all PDOx pins behave as follows:

•

The internal pull-down can be overdriven with an external pull-up

of suitable value tied from the PDOx pin to the required pull-up

voltage. The 20 kΩ resistor must be accounted for in calculating

a suitable value. For example, if PDOx must be pulled up to 3.3 V,

and 5 V is available as an external supply, the pull-up resistor

value is given by

Therefore,

Output from the SE.

Directly from the SMBus. A PDO can be configured so that

the SMBus has direct control over it. This enables software

control of the PDOs. Therefore, a microcontroller can be

used to initiate a software power-up/power-down sequence.

On-chip clock. A 100 kHz clock is generated on the device.

This clock can be made available on any of the PDOs. It can

be used, for example, to clock an external device such as

an LED.

Input supply = 0 V to 1.2 V. The PDOs are high impedance.

Input supply = 1.2 V to 2.7 V. The PDOs are pulled to GND

by a weak (20 kΩ) on-chip pull-down resistor.

Supply > 2.7 V. Factory programmed devices continue to

pull all PDOs to GND by a weak (20 kΩ) on-chip pull-down

resistor. Programmed devices download current EEPROM

configuration data, and the programmed setup is latched. The

PDO then goes to the state demanded by the configuration.

This provides a known condition for the PDOs during

power-up.

3.3 V = 5 V × 20 kΩ/(R

VP4

= (100 kΩ − 66 kΩ)/3.3 V = 10 kΩ

VFET (PDO1 TO PDO6 ONLY)

+ 20 kΩ)

PDO

ADM1069ASTZ Analog Devices Inc, ADM1069ASTZ Datasheet - Page 16

ADM1069ASTZ

Specifications of ADM1069ASTZ

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