EVAL-ADUC831QSZ Analog Devices Inc, EVAL-ADUC831QSZ Datasheet - Page 18

EVAL-ADUC831QSZ

Manufacturer Part Number

EVAL-ADUC831QSZ

Description

KIT DEV FOR ADUC831 QUICK START

Manufacturer

Analog Devices Inc

Series

QuickStart™ Kitr

Type

MCUr

Datasheet

1.EVAL-ADUC831QSZ.pdf (76 pages)

Specifications of EVAL-ADUC831QSZ

Contents

Evaluation Board, Power Supply, Cable, Software and Documentation

Silicon Manufacturer

Analog Devices

Core Architecture

8051

Silicon Core Number

ADuC831

Tool / Board Applications

General Purpose MCU, MPU, DSP, DSC

Mcu Supported Families

ADUC8xx

Development Tool Type

Hardware - Eval/Demo Board

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

ADuC831

Lead Free Status / Rohs Status

Compliant

Other names

EVAL-ADUC831QS
EVAL-ADUC831QS

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ADuC831

ADC CIRCUIT INFORMATION

General Overview

The ADC conversion block incorporates a fast, 8-channel,

12-bit, single supply ADC. This block provides the user with

multichannel mux, track/hold, on-chip reference, calibration

features, and ADC. All components in this block are easily

configured via a 3-register SFR interface.

The ADC consists of a conventional successive-approximation

converter based around a capacitor DAC. The converter accepts

an analog input range of 0 to V

and factory calibrated 2.5 V reference is provided on-chip. An

external reference can be connected as described later. This

external reference can be in the range of 1 V to AV

Single step or continuous conversion modes can be initiated in

software or alternatively by applying a convert signal to an exter-

nal pin. Timer 2 can also be configured to generate a repetitive

trigger for ADC conversions. The ADC may be configured to

operate in a DMA Mode whereby the ADC block continuously

converts and captures samples to an external RAM space without

any interaction from the MCU core. This automatic capture facility

can extend through a 16 MByte external data memory space.

The ADuC831 is shipped with factory programmed calibration

coefficients that are automatically downloaded to the ADC on

power-up ensuring optimum ADC performance. The ADC core

contains internal offset and gain calibration registers, that can

be hardware calibrated to minimize system errors.

A voltage output from an on-chip band gap reference propor-

tional to absolute temperature can also be routed through the

front end ADC multiplexor (effectively a ninth ADC channel

input) facilitating a temperature sensor implementation.

REF

. A high precision, low drift,

–18–

ADC Transfer Function

The analog input range for the ADC is 0 V to V

range, the designed code transitions occur midway between

successive integer LSB values (i.e., 1/2 LSB, 3/2 LSBs,

5/2 LSBs, . . ., FS –3/2 LSBs). The output coding is straight

binary with 1 LSB = FS/4096 or 2.5 V/4096 = 0.61 mV when

the 0 to V

Typical Operation

Once configured via the ADCCON 1-3 SFRs the ADC will

convert the analog input and provide an ADC 12-bit result word in

the ADCDATAH/L SFRs. The top four bits of the ADCDATAH

SFR will be written with the channel selection bits so as to identify

the channel result. The format of the ADC 12 bit result word is

shown in Figure 8.

REF

TOP 4 BITS

= 2.5 V. The ideal input/output transfer characteristic for

CH–ID

000...010

111...111

111...110

111...101

111...100

000...011

000...001

000...000

OUTPUT

REF

CODE

range is shown in Figure 7.

Figure 7. ADC Transfer Function

0V 1LSB

Figure 8. ADC Result Format

1LSB =

4096

VOLTAGE INPUT

LOW 8 BITS OF THE

ADC RESULT WORD

HIGH 4 BITS OF

ADC RESULT WORD

ADCDATAH SFR

ADCDATAL SFR

+FS

–1LSB

REF

. For this

REV. 0

EVAL-ADUC831QSZ Analog Devices Inc, EVAL-ADUC831QSZ Datasheet - Page 18

EVAL-ADUC831QSZ

Specifications of EVAL-ADUC831QSZ

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