MAX11312 Datasheet, PDF(21/54 Page) Maxim Integrated Products – PIXI, 12-Port Programmable Mixed-Signal I/O with 12-Bit ADC, 12-Bit DAC, Analog Switches, and GPIO

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MAX11312 Datasheet, PDF (21/54 Pages) Maxim Integrated Products – PIXI, 12-Port Programmable Mixed-Signal I/O with 12-Bit ADC, 12-Bit DAC, Analog Switches, and GPIO

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MAX11312

PIXI, 12-Port Programmable Mixed-Signal I/O with

12-Bit ADC, 12-Bit DAC, Analog Switches, and GPIO

Detailed Description

Functional Overview

The MAX11312 has 12 configurable mixed-signal I/O

ports. Each port is independently configured as a DAC

output, an ADC, a GPI input, a GPO, or an analog switch

terminal. User-controllable parameters are available for each

of those configurations. The device offers one internal and

two external temperature sensors. The serial interface

operates as a Fast Mode I2C-compatible interface.

The DAC is used to drive out a voltage defined by the

DAC data register of the DAC-configured ports. The DAC

uses either an internal or external voltage reference. The

selection of the voltage reference is set for all the ports

and cannot be configured on a port-by-port basis.

The ADC converts voltages applied to the ADC-configured

ports. The ADC can operate in single-ended mode or in

differential mode, by which any two ports can form a

differential pair. The port configured as the negative

input of the ADC can be used by more than one differential

ADC input pairs. The ADC uses an internal voltage

reference. In some configurations, the ADC uses the DAC

voltage reference. The ADC voltage reference selection

can be configured on a port-by-port basis.

Interrupts provide the host with the occurrence of user-

selected events through the configuration of an interrupt

mask register.

ADC Operations

The ADC is a 12-bit, low-power, successive approximation

analog-to-digital converter, capable of sampling a single

input at up to 400ksps. The ADCâs conversion rate can be

programmed to 400ksps, 333ksps, 250ksps, or 200ksps.

The default conversion rate setting is 200ksps. Each

ADC-configured port can be programmed for one of five

input voltage ranges: 0 to +10V, -5V to +5V, -10V to 0V,

and 0 to +2.5V. The ADC uses the internal ADC 2.5V

voltage reference or in some cases, the DAC voltage

reference. The voltage reference can be selected on a

port-by-port basis.

ADC Control

The ADC can be triggered using an external signal CNVT

or from a control bit. CNVT is active-low and must remain

low for a minimal duration of 0.5Âµs to trigger a conversion.

Four configurations are available:

ââ Idle mode (default setting).

ââ Single sweep mode. The ADC sweeps sequentially

the ADC-configured ports, from the lowest index port

to the highest index port, once CNVT is asserted.

ââ Single conversion mode. The ADC performs a single

conversion at the current port in the series of ADC-

configured ports when CNVT is asserted.

ââ Continuous sweep mode. The ADC continuously

sweeps the ADC-configured ports. The CNVT port

has no effect in this mode.

ADC Averaging Function

ADC-configured ports can be configured to average

blocks of 2, 4, 8, 16, 32, 64, or 128 conversion results.

The corresponding ADC data register is updated only

when the averaging is completed, thus decreasing the

throughput proportionally. If the number of samples to

average is modified for a given port, the content of the

ADC data register for that port is cleared before starting

to average the new block of samples.

ADC Mode Change

When users change the ADC active mode (continuous

sweep, single sweep, or single conversion), the ADC data

registers are reset. However, ADC data registers retain

content when the ADC is changed to idle mode.

ADC Configurations

The ADC can operate in single-ended, differential, or

pseudo-differential mode. In single-ended mode, the PIXI

port is the positive input to the ADC while the negative

input is grounded internally (Figure 2). In differential mode

(Figure 3), any pair of PIXI ports can be configured as

inputs to the differential ADC. In pseudo-differential mode

(Figure 4), one PIXI port produces the voltage applied

to the negative input of the ADC, while another PIXI port

forms the positive input.

The ADC data format is straight binary in single-ended

mode, and twoâs complement in differential and pseudo-

differential modes.

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