MAX1363 Datasheet, PDF(11/24 Page) Maxim Integrated Products – 4-Channel, 12-Bit System Monitors with Programmable Trip Window and SMBus Alert Response

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MAX1363 Datasheet, PDF (11/24 Pages) Maxim Integrated Products – 4-Channel, 12-Bit System Monitors with Programmable Trip Window and SMBus Alert Response

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4-Channel, 12-Bit System Monitors with Programmable

Trip Window and SMBus Alert Response

where RSOURCE is the analog-input source impedance,

RIN = 2.5kâ¦, and CIN = 22pF. For internal clock mode,

tACQ = 1.5 / fSCL, and for external clock mode tACQ =

2 / fSCL.

Analog-Input Bandwidth

The MAX1363/MAX1364 feature input-tracking circuitry

with a 5MHz small-signal bandwidth. The 5MHz input

bandwidth makes it possible to digitize high-speed

transient events and measure periodic signals with

bandwidths exceeding the ADCâs sampling rate by

using undersampling techniques. To avoid high-fre-

quency signals from aliasing into the frequency band of

interest, use anti-aliasing filtering.

Analog-Input Range and Protection

Internal protection diodes clamp the analog inputs to VDD

and GND. These diodes allow the analog inputs to swing

from (GND - 0.3V) to (VDD + 0.3V) without causing dam-

age to the device. For accurate conversions, the inputs

must remain within 50mV below GND or above VDD.

Single-Ended/Differential Input

The SE/DIF of the configuration byte configures the

MAX1363/MAX1364 analog-input circuitry for single-

ended or differential input. In single-ended mode (SE/DIF

= 1), the digital conversion results are the difference

between the analog input selected by CS[3:0] and GND.

In differential mode (SE/DIF = 0), the digital conversion

results are the difference between the plus and the minus

analog inputs selected by CS[3:0] (see Tables 5 and 6).

Unipolar/Bipolar

Unipolar mode sets the differential input range from 0

to VREF. A negative differential analog input in unipolar

mode causes the digital output code to be zero.

Selecting bipolar mode sets the differential input range

to Â±VREF / 2. The digital output code is binary in unipo-

lar mode and twoâs complement in bipolar mode. (See

the Transfer Functions section.)

In single-ended mode the MAX1363/MAX1364 always

operate in unipolar mode. The analog inputs are inter-

nally referenced to GND with a full-scale input range

from 0 to VREF (Table 7).

Reference

SEL[2:0] of the setup byte controls the reference and

the AIN3/REF configuration. When AIN3/REF is config-

ured as a reference input or reference output (SEL1 =

1), differential conversions on AIN3/REF appear as if

AIN3/REF is connected to GND. A single-ended conver-

sion in scan mode on AIN3/REF is ignored by an internal

limiter that sets the highest available channel at AIN2.

Internal Reference

The internal reference is 2.048V for the MAX1363 and

4.096V for the MAX1364. SEL1 of the setup byte con-

trols whether AIN3/REF is used for an analog input or a

reference. Decouple AIN3/REF to GND with a 0.1ÂµF

capacitor and a 2kâ¦ resistor in series with the capaci-

tor. When AIN3/REF is configured as an internal refer-

ence output (SEL[1:0] = 11). See the Typical Operating

Circuit. Once powered up, the reference remains on

until reconfigured. Do not use the reference to supply

current for external circuitry.

External Reference

The external reference ranges from 1V to VDD. For max-

imum conversion accuracy, the reference must deliver

40ÂµA and have an impedance of 500â¦ or less. For

noisy or high-output-impedance references, insert a

0.1ÂµF bypass capacitor to GND as close to AIN3/REF

as possible.

Clock Modes

The clock mode determines the conversion clock and

the data acquisition and conversion time. The clock

mode also affects the scan mode. The state of the

setup byteâs INT/EXT clock bit determines the clock

mode. At power-up, the MAX1363/MAX1364 default to

internal clock mode (INT/EXT clock = 0).

Internal Clock

See the Configuration/Setup Bytes (Write Cycle) section.

In internal clock mode (CLK = 0), the MAX1363/

MAX1364 use an internal oscillator for the conversion

clock. The MAX1363/MAX1364 begin tracking the analog

input after a valid address on the eighth rising edge of the

clock. On the falling edge of the ninth clock, the analog

signal is acquired and the conversion begins. While con-

verting, the MAX1363/MAX1364 hold SCL low (clock

stretching). After completing the conversion, the results

are stored in internal memory. For scan-mode configura-

tions with multiple conversions (see the Scan Modes sec-

tion), all conversions happen in succession with each

additional result stored in memory. Once all conversions

are complete, the MAX1363/MAX1364 release SCL,

allowing it to go high. The master can now clock the

results out in the same order as the scan conversion.

The converted results are read back in a FIFO

sequence. If AIN3/REF is configured as a reference

input or output, AIN3/REF is excluded from multichan-

nel scan. If reading continues past the final result

stored in memory, the pointer wraps around and points

to the first result. Only the current conversion results

are read from memory. The MAX1363/MAX1364 must

be addressed with a read command to obtain new con-

version results.

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