EVAL-ADM1068LQEBZ Analog Devices Inc, EVAL-ADM1068LQEBZ Datasheet - Page 12

EVAL-ADM1068LQEBZ

Manufacturer Part Number

EVAL-ADM1068LQEBZ

Description

BOARD EVALUATION FOR ADM1068LQ

Manufacturer

Analog Devices Inc

Datasheets

1.CABLE-SMBUS-3PINZ.pdf (38 pages)

2.EVAL-ADM1068LQEBZ.pdf (24 pages)

Specifications of EVAL-ADM1068LQEBZ

Main Purpose

Power Management, Power Supply Supervisor/Tracker/Sequencer

Embedded

Utilized Ic / Part

ADM1068

Primary Attributes

10 Channel Supervisor / Sequencer, 6 Voltage Output DACs

Secondary Attributes

GUI Programmable via SMBus (via USB)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 12 of 24
Download datasheet (500Kb)

ADM1068

The hysteresis value is given by

where:

Note that N

hysteresis for the ranges is listed in Table 6.

INPUT GLITCH FILTERING

The final stage of the SFDs is a glitch filter. This block provides

time-domain filtering on the output of the SFD comparators,

which allows the user to remove any spurious transitions such

as supply bounce at turn-on. The glitch filter function is in addition

to the digitally programmable hysteresis of the SFD comparators.

The glitch filter timeout is programmable up to 100 μs.

For example, when the glitch filter timeout is 100 μs, any pulse

appearing on the input of the glitch filter block that is less than

100 μs in duration is prevented from appearing on the output of

the glitch filter block. Any input pulse that is longer than 100 μs

appears on the output of the glitch filter block. The output is

delayed with respect to the input by 100 μs. The filtering

process is shown in Figure 16.

SUPPLY SUPERVISION WITH VXx INPUTS

The VXx inputs have two functions. They can be used as either

supply fault detectors or as digital logic inputs. When selected as

analog (SFD) inputs, the VXx pins have functionality that is very

similar to the VH and VPx pins. The primary difference is that the

VXx pins have only one input range: 0.573 V to 1.375 V.

Therefore, these inputs can directly supervise only the very low

supplies. However, the input impedance of the VXx pins is high,

allowing an external resistor divide network to be connected to

the pin. Thus, potentially any supply can be divided down into

the input range of the VXx pin and supervised. This enables the

ADM1068 to monitor other supplies, such as +24 V, +48 V,

and −5 V.

HYST

THRESH

THAN GLITCH FILTER TIMEOUT

PROGRAMMED

INPUT

TIMEOUT

is the desired hysteresis voltage.

INPUT PULSE SHORTER

HYST

is the decimal value of the 5-bit hysteresis code.

= V

THRESH

× N

Figure 16. Input Glitch Filter Function

OUTPUT

has a maximum value of 31. The maximum

THRESH

/255

PROGRAMMED

THAN GLITCH FILTER TIMEOUT

TIMEOUT

INPUT PULSE LONGER

INPUT

OUTPUT

Rev. B | Page 12 of 24

An additional supply supervision function is available when the

VXx pins are selected as digital inputs. In this case, the analog

function is available as a second detector on each of the dedicated

analog inputs, VPx and VH. The analog function of VX1 is

mapped to VP1, VX2 is mapped to VP2, and so on. VX4 is

mapped to VH. In this case, these SFDs can be viewed as secondary

or warning SFDs.

The secondary SFDs are fixed to the same input range as

the primary SFDs. They are used to indicate warning levels

rather than failure levels. This allows faults and warnings to

be generated on a single supply using only one pin. For

example, if VP1 is set to output a fault when a 3.3 V supply

drops to 3.0 V, VX1 can be set to output a warning at 3.1 V.

Warning outputs are available for readback from the status

registers. They are also OR’ e d together and fed into the SE,

allowing warnings to generate interrupts on the PDOs.

Therefore, in this example, if the supply drops to 3.1 V, a

warning is generated, and remedial action can be taken before

the supply drops out of tolerance.

VXx PINS AS DIGITAL INPUTS

As discussed in the Supply Supervision with VXx Inputs section,

the VXx input pins on the ADM1068 have dual functionality.

The second function is as a digital logic input to the device.

Therefore, the ADM1068 can be configured for up to four digital

inputs. These inputs are TTL-/CMOS-compatible. Standard logic

signals can be applied to the pins: RESET from reset generators,

PWRGD signals, fault flags, manual resets, and more. These

signals are available as inputs to the SE and, therefore, can be used

to control the status of the PDOs. The inputs can be configured

to detect either a change in level or an edge.

When configured for level detection, the output of the digital

block is a buffered version of the input. When configured for

edge detection, a pulse of programmable width is output from

the digital block, once the logic transition is detected. The width

is programmable from 0 μs to 100 μs.

The digital blocks feature the same glitch filter function that is

available on the SFDs. This function enables the user to ignore

spurious transitions on the inputs. For example, the filter can be

used to debounce a manual reset switch.

When configured as digital inputs, each VXx pin has a weak

(10 μA) pull-down current source available for placing the input

into a known condition, even if left floating. The current source,

if selected, weakly pulls the input to GND.

(DIGITAL INPUT)

VXx

VREF = 1.4V

Figure 17. VXx Digital Input Function

–

DETECTOR

GLITCH

FILTER

SEQUENCING

ENGINE

EVAL-ADM1068LQEBZ Analog Devices Inc, EVAL-ADM1068LQEBZ Datasheet - Page 12

EVAL-ADM1068LQEBZ

Specifications of EVAL-ADM1068LQEBZ

Related parts for EVAL-ADM1068LQEBZ