EVAL-ADM1063TQEBZ Analog Devices Inc, EVAL-ADM1063TQEBZ Datasheet - Page 7

EVAL-ADM1063TQEBZ

Manufacturer Part Number

EVAL-ADM1063TQEBZ

Description

BOARD EVALUATION FOR ADM1063TQ

Manufacturer

Analog Devices Inc

Datasheets

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

2.EVAL-ADM1063TQEB.pdf (32 pages)

Specifications of EVAL-ADM1063TQEBZ

Main Purpose

Power Management, Power Supply Supervisor/Tracker/Sequencer

Embedded

Utilized Ic / Part

ADM1063

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

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PIN CONFIGURATIONS AND FUNCTION DESCRIPTIONS

Table 2. Pin Function Descriptions

LFCSP

15, 16,

19, 20

1 to 5

6 to 9

21 to 30

NC = NO CONNECT

VX1

VX2

VX3

VX4

VX5

VP1

VP2

VP3

VP4

Pin No.

TQFP

1, 12, 13, 18,

19, 22 to 25,

36, 37, 48

26 to 35

2 to 6

7 to 10

PIN 1

INDICATOR

Figure 3. LFCSP Pin Configuration

(Not to Scale)

ADM1063

Mnemonic

VX1 to VX5

(VXx)

VP1 to VP4

(VPx)

AGND

REFGND

REFIN

REFOUT

SCL

SDA

PDO10 to PDO1

PDOGND

VCCP

D2N

D2P

D1N

D1P

TOP VIEW

Description

No Connection.

High Impedance Inputs to Supply Fault Detectors. Fault thresholds can be set from 0.573 V to

1.375 V. Alternatively, these pins can be used as general-purpose digital inputs.

Low Voltage Inputs to Supply Fault Detectors. Three input ranges can be set by altering the

input attenuation on a potential divider connected to these pins, the output of which connects

to a supply fault detector. These pins allow thresholds from 2.5 V to 6.0 V, from 1.25 V to 3.00 V,

and from 0.573 V to 1.375 V.

High Voltage Input to Supply Fault Detectors. Two input ranges can be set by altering the

input attenuation on a potential divider connected to this pin, the output of which connects

to a supply fault detector. This pin allows thresholds from 6.0 V to 14.4 V and from 2.5 V to 6.0 V.

Ground Return for Input Attenuators.

Ground Return for On-Chip Reference Circuits.

Reference Input for ADC. Nominally, 2.048 V. This pin must be driven by a reference voltage.

The on-board reference can be used by connecting the REFOUT pin to the REFIN pin.

Reference Output, 2.048 V. Typically connected to REFIN. Note that the capacitor must be

connected between this pin and REFGND. A 10 μF capacitor is recommended for this purpose.

SMBus Clock Pin. Bidirectional open drain requires external resistive pull-up.

SMBus Data Pin. Bidirectional open drain requires external resistive pull-up.

Programmable Output Drivers.

Ground Return for Output Drivers.

Central Charge Pump Voltage of 5.25 V. A reservoir capacitor must be connected between this

pin and GND. A 10 μF capacitor is recommended for this purpose.

Logic Input. This pin sets the seventh bit of the SMBus interface address.

Logic Input. This pin sets the sixth bit of the SMBus interface address.

External Temperature Sensor 2 Cathode Connection.

External Temperature Sensor 2 Anode Connection.

External Temperature Sensor 1 Cathode Connection.

External Temperature Sensor 1 Anode Connection.

PDO1

PDO2

PDO3

PDO4

PDO5

PDO6

PDO7

PDO8

PDO9

PDO10

Rev. B | Page 7 of 32

VX1

VX2

VX3

VX4

VX5

VP1

VP2

VP3

VP4

NC = NO CONNECT

48 47 46 45 44 43 42 41 40 39 38 37

13 14 15 16 17 18 19 20 21 22 23 24

PIN 1

INDICATOR

Figure 4. TQFP Pin Configuration

(Not to Scale)

ADM1063

TOP VIEW

ADM1063

PDO1

PDO2

PDO3

PDO4

PDO5

PDO6

PDO7

PDO8

PDO9

PDO10

EVAL-ADM1063TQEBZ Analog Devices Inc, EVAL-ADM1063TQEBZ Datasheet - Page 7

EVAL-ADM1063TQEBZ

Specifications of EVAL-ADM1063TQEBZ

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