ADUC814 Analog Devices, ADUC814 Datasheet - Page 26

ADUC814

Manufacturer Part Number

ADUC814

Description

Precision Analog Microcontroller: 1.3MIPS 8052 MCU + 8kB Flash + 6-Ch 12-Bit ADC + Dual 12-Bit DAC

Manufacturer

Analog Devices

Datasheet

1.ADUC814.pdf (72 pages)

Specifications of ADUC814

Mcu Core

8052

Mcu Speed (mips)

1.3

Sram (bytes)

256Bytes

Gpio Pins

Adc # Channels

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ADuC814

Table 10. Some Single-Supply Op Amps

Op Amp Model

OP281/OP481

OP191/OP291/OP491

OP196/OP296/OP496

OP183/OP283

OP162/OP262/OP462

AD820/OP822/OP824

AD823

Keep in mind that the ADC’s transfer function is 0 V to V

and any signal range lost to amplifier saturation near ground

impacts dynamic range. Though the op amps in Table 10 are

capable of delivering output signals very closely approaching

ground, no amplifier can deliver signals all the way to ground

when powered by a single supply. Therefore, if a negative supply

is available, one could consider using it to power the front end

amplifiers. If you do, however, be sure to include the Schottky

diodes shown in Figure 26 (or at least the lower of the two

diodes) to protect the analog input from undervoltage conditions.

VOLTAGE REFERENCE CONNECTIONS

The on-chip 2.5 V band gap voltage reference can be used as the

reference source for the ADC and DACs. To ensure the accuracy

of the voltage reference, decouple the V

ground with 0.1 µF capacitors as shown in Figure 27.

If the internal voltage reference is to be used as a reference for

external circuitry, the C

buffer must be used in this case to ensure that no current is

drawn from the C

that of an internal node within the buffer block, and its voltage

is critical to ADC and DAC accuracy. As outlined in the

Reference Input/Output section of the Specifications table, the

internal band gap reference takes typically 80 msecs to power

on and settle to its final value. To ensure accurate ADC operation,

one should wait for the ADC to settle after power-on.

BUFFER

0.1µF

Figure 27. Decoupling V

REF

pin itself. The voltage on the C

REF

output should be used. However, a

BUFFER

High GBP, micropackage

Characteristics

Micropower

I/O good up to V

I/O to V

High gain-bandwidth product

FET input, low cost

FET input, high GBP

REFERENCE

ADuC814

BAND GAP

REF

2.5V

REF

, micropower, low cost

and C

TO ADC

REFERENCE

INPUT

and the C

REF

, low cost

REF

pin is

pin to

REF

Rev. A | Page 26 of 72

If an external voltage reference is preferred, it should be con-

nected to the V

the ADCCON1 SFR must be set to 1 to switch in the external

reference voltage. To ensure accurate ADC operation, the

voltage applied to V

situations where analog input signals are proportional to the

power supply (such as some strain gage applications) it can be

desirable to connect the V

Operation of the ADC with a reference voltage below 1.0 V,

however, may incur loss of accuracy eventually resulting in

missing codes or non-monotonicity. For that reason, do not use

a reference voltage less than 1.0 V.

CONFIGURING THE ADC

In configuring the ADC a number of parameters need to be set

up. These parameters can be configured using the three SFRs:

ADCCON1, ADCCON2, and ADCCON3, which are detailed in

the following sections.

The ADCCLK determines the speed at which the ADC logic

runs while performing an ADC conversion. All ADC timing

parameters are calculated from the ADCCLK frequency. On the

ADuC814, the ADCCLK is derived from the maximum core

frequency (F

selected via ADCCON1 Bits 5 and 4, which provide four core

clock divide ratios of 8, 4, 16, and 32, generating ADCCLK

values of 2 MHz, 4 MHz, 1 MHz, and 500 kHz, respectively.

The acquisition time (T

the ADC input circuitry uses to sample the input signal. In most

cases, an acquisition time of one ADCCLK provides more than

adequate time for the ADuC814 to acquire its signal before

switching the internal track-and-hold amplifier into hold mode.

The only exception is a high source impedance analog input,

but this should be buffered first anyway because high source

impedances can cause significant dc errors (see Table 6).

ADCCON1 Bits 3 and 2 are used to select acquisition times of

1, 2, 3, and 4 ADCCLKs.

REFERENCE

EXTERNAL

VOLTAGE

0.1µF

Figure 28. Using an External Voltage Reference

CORE

REF

), 16.777216 MHz. The ADCCLK frequency is

and C

REF

1 = EXTERNAL

0 = INTERNAL

must be between 1.0 V and AV

ACQ

REF

ADCCON1.6

REF

) is the number of ADCCLKs that

REFERENCE

pins as shown in Figure 28. Bit 6 of

BAND GAP

pin directly to AV

2.5V

ADuC814

BUFFER

TO ADC

REFERENCE

INPUT

. In

ADUC814 Analog Devices, ADUC814 Datasheet - Page 26

ADUC814

Specifications of ADUC814

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