MAX16031 Datasheet, PDF(18/42 Page) Maxim Integrated Products – EEPROM-Based System Monitors with Nonvolatile Fault Memory

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MAX16031 Datasheet, PDF (18/42 Pages) Maxim Integrated Products – EEPROM-Based System Monitors with Nonvolatile Fault Memory

◁

EEPROM-Based System Monitors

with Nonvolatile Fault Memory

a -1V differential input (range of 5.6V) gives a decimal

code of -183, which is 1101001001 in twoâs comple-

ment binary form. In single-ended mode, conversions

are performed between a single input and ground.

When single-ended mode is selected, conversions are

always unipolar regardless of r1Ch[7:4]. The single-

ended and pseudo-differential ADC mode equations

are shown below.

Unipolar single-ended mode:

XADC

INT

ââ

VINâ

VREF

1024â â

where XADC is the resulting code in decimal, VIN is the

voltage at a voltage monitoring input, and VRANGE is

the selected range programmed in r17h and r18h.

Bipolar/unipolar pseudo-differential mode:

XADC = INT ââ

VIN+

VREF

Ã 1024â â

INT

ââ

VINâ

VREF

Ã 1024â â

where XADC is the resulting code in decimal, VIN+ is the

voltage at a positive input of a differential voltage moni-

toring input pair, VIN- is the voltage at a negative input of

a differential voltage monitoring input pair, and VRANGE

is the selected range programmed in r17h and r18h.

Table 3. IN1âIN8 ADC Input Mode Selection

ADDRESS

1Ch

EEPROM

MEMORY

ADDRESS

9Ch

BIT RANGE

DESCRIPTION

IN1/IN2 Single-Ended/Pseudo-Differential:

[0]

0 = IN1 and IN2 conversions are single-ended.

1 = IN1 and IN2 conversions are pseudo-differential (IN1 to IN2).

IN3/IN4 Single-Ended/Pseudo-Differential:

[1]

0 = IN3 and IN4 conversions are single-ended.

1 = IN3 and IN4 conversions are pseudo-differential (IN3 to IN4).

IN5/IN6 Single-Ended/Pseudo-Differential:

[2]

0 = IN5 and IN6 conversions are single-ended.

1 = IN5 and IN6 conversions are pseudo-differential (IN5 to IN6).

IN7/IN8 Single-Ended/Pseudo-Differential:

[3]

0 = IN7 and IN8 conversions are single-ended.

1 = IN7 and IN8 conversions are pseudo-differential (IN7 to IN8).

IN1/IN2 Unipolar/Bipolar:

[4]

0 = IN1 and IN2 conversions are unipolar.

1 = IN1 and IN2 conversions are bipolar (twoâs complement).

IN3/IN4 Unipolar/Bipolar:

[5]

0 = IN3 and IN4 conversions are unipolar.

1 = IN3 and IN4 conversions are bipolar (twoâs complement).

IN5/IN6 Unipolar/Bipolar:

[6]

0 = IN5 and IN6 conversions are unipolar.

1 = IN5 and IN6 conversions are bipolar (twoâs complement).

IN7/IN8 Unipolar/Bipolar:

[7]

0 = IN7 and IN8 conversions are unipolar.

1 = IN7 and IN8 conversions are bipolar (twoâs complement).

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