ADUC816 Analog Devices, ADUC816 Datasheet - Page 33

ADUC816

Manufacturer Part Number

ADUC816

Description

Precision Analog Microcontroller: 1MIPS 8052 MCU + 8kB Flash + Dual 16-Bit ADC + 12-Bit DAC

Manufacturer

Analog Devices

Datasheet

1.ADUC816.pdf (68 pages)

Specifications of ADUC816

Mcu Core

8052

Mcu Speed (mips)

1.3

Sram (bytes)

256Bytes

Gpio Pins

Adc # Channels

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Word

255

Word

255

NOTE

Word

255

NOTE

PRIMARY AND AUXILIARY ADC NOISE

PERFORMANCE

Tables IX, X and XI below show the output rms noise in μV

and output peak-to-peak resolution in bits (rounded to the

nearest 0.5 LSB) for some typical output update rates on both

the Primary and Auxiliary ADCs. The numbers are typical and

Analog Input Channels

The primary ADC has four associated analog input pins (labelled

AIN1 to AIN4) which can be configured as two fully differential

input channels. Channel selection bits in the ADC0CON SFR

detailed in Table V allow three combinations of differential pair

selection as well as an additional shorted input option (AIN2–AIN2).

The auxiliary ADC has three external input pins (labelled AIN3

to AIN5) as well as an internal connection to the internal on-chip

temperature sensor. All inputs to the auxiliary ADC are single-

ended inputs referenced to the AGND on the part. Channel

selection bits in the ADC1CON SFR detailed previously in

Table VI allow selection of one of four inputs.

Two input multiplexers switch the selected input channel to the

on-chip buffer amplifier in the case of the primary ADC and

directly to the sigma-delta modulator input in the case of the

auxiliary ADC. When the analog input channel is switched, the

settling time of the part must elapse before a new valid word is

available from the ADC.

REV. A

Peak-to-peak resolution at these range/update rate settings is limited only by the number of bits available from the ADC. Effective resolution at these range/update

ADC converting in bipolar mode.

rate settings is greater than 16 bits as indicated by the rms noise table shown in Table IX.

Typical Output RMS Noise vs. Update Rate

Data Update

Rate (Hz)

105.3

19.79

5.35

Data Update

Rate (Hz)

105.3

19.79

5.35

Output RMS Noise in V

Peak-to-Peak Resolution vs. Input Range and Update Rate; Peak-to-Peak Resolution in Bits

Data Update

Rate (Hz)

105.3

19.79

5.35

Typical Output RMS Noise vs. Input Range and Update Rate; Output RMS Noise in V

1.50

0.60

0.35

20 mV

Table IX. Primary ADC, Typical Output RMS Noise ( V)

Table X. Primary ADC, Peak-to-Peak Resolution (Bits)

1.50

0.65

0.35

Input Range

2.5 V

10.75

2.00

1.15

40 mV

Table XI. Auxiliary ADC

1.60

0.65

0.37

80 mV

are generated at a differential input voltage of 0 V. The output

update rate is selected via the SF7–SF0 bits in the Sinc Filter

(SF) SFR. It is important to note that the peak-to-peak resolu-

tion figures represent the resolution for which there will be no

code flicker within a six-sigma limit.

Input Range

1.75

0.65

0.37

Input Range

Word

255

NOTES

Primary and Auxiliary ADC Inputs

The output of the primary ADC multiplexer feeds into a high

impedance input stage of the buffer amplifier. As a result, the

primary ADC inputs can handle significant source impedances and

are tailored for direct connection to external resistive-type sensors

like strain gauges or Resistance Temperature Detectors (RTDs).

The auxiliary ADC, however, is unbuffered resulting in higher

analog input current on the auxiliary ADC. It should be noted that

this unbuffered input path provides a dynamic load to the driving

source. Therefore, resistor/capacitor combinations on the input

pins can cause dc gain errors depending on the output impedance

of the source that is driving the ADC inputs.

Analog Input Ranges

The absolute input voltage range on the primary ADC is restricted

to between AGND + 100 mV to AVDD – 100 mV. Care must be

taken in setting up the common-mode voltage and input voltage

range so that these limits are not exceeded, otherwise there will

be a degradation in linearity performance.

ADC converting in bipolar mode.

In unipolar mode peak-to-peak resolution at 105 Hz is 15 bits.

160 mV

Peak-to-Peak Resolution vs. Update Rate

Peak-to-Peak Resolution in Bits

3.50

0.65

0.37

320 mV

Data Update

Rate (Hz)

105.3

19.79

5.35

4.50

0.95

0.51

15.5

640 mV

6.70

1.40

0.82

Input Range

2.5 V

1.28 V

11.75

2.30

1.25

2.56 V

ADUC816 Analog Devices, ADUC816 Datasheet - Page 33

ADUC816

Specifications of ADUC816

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