EVAL-ADUC7060QSPZ Analog Devices Inc, EVAL-ADUC7060QSPZ Datasheet - Page 17

EVAL-ADUC7060QSPZ

Manufacturer Part Number

EVAL-ADUC7060QSPZ

Description

Quick Start Development System

Manufacturer

Analog Devices Inc

Series

QuickStart™ PLUS Kitr

Type

MCU, ARM7r

Datasheet

1.EVALADUC7060QSPZU2.pdf (100 pages)

Specifications of EVAL-ADUC7060QSPZ

Contents

Evaluation Board, Power Supply, Cable, Software, Emulator and Documentation

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

ADuC7060

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

Q5189809

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TERMINOLOGY

Conversion Rate

The conversion rate specifies the rate at which an output result

is available from the ADC, once the ADC has settled.

The sigma-delta (Σ-Δ) conversion techniques used on this part

mean that while the ADC front-end signal is oversampled at a

relatively high sample rate, a subsequent digital filter is used to

decimate the output giving a valid 24-bit data conversion result

at output rates from 1 Hz to 8 kHz.

Note that, when software switches from one input to another

(on the same ADC), the digital filter must first be cleared and

then allowed to average a new result. Depending on the con-

figuration of the ADC and the type of filter, this can take

multiple conversion cycles.

Integral Nonlinearity (INL)

INL is the maximum deviation of any code from a straight line

passing through the endpoints of the transfer function. The end-

points of the transfer function are zero scale, a point ½ LSB

below the first code transition, and full scale, a point ½ LSB

above the last code transition (111 . . . 110 to 111 . . . 111).

The error is expressed as a percentage of full scale.

No Missing Codes

No missing codes is a measure of the differential nonlinearity

of the ADC. The error is expressed in bits and specifies the

number of codes (ADC results) as 2N bits, where N is no

missing codes guaranteed to occur through the full ADC

input range.

Offset Error

Offset error is the deviation of the first code transition ADC

input voltage from the ideal first code transition.

Offset Error Drift

Offset error drift is the variation in absolute offset error with

respect to temperature. This error is expressed as least

significant bits per degree Celsius.

Gain Error

Gain error is a measure of the span error of the ADC. It is a

measure of the difference between the measured and the ideal

span between any two points in the transfer function.

Rev. 0 | Page 17 of 100

Output Noise

The output noise is specified as the standard deviation (or 1 ×

Sigma) of ADC output codes distribution collected when the

ADC input voltage is at a dc voltage. It is expressed as micro

root mean square. The output, or root mean square (rms) noise,

can be used to calculate the effective resolution of the ADC as

defined by the following equation:

The peak-to-peak noise is defined as the deviation of codes that

fall within 6.6 × Sigma of the distribution of ADC output codes

collected when the ADC input voltage is at dc. The peak-to-peak

noise is, therefore, calculated as

The peak-to-peak noise can be used to calculate the ADC (noise

free code) resolution for which there is no code flicker within a

6.6-Sigma limit as defined by the following equation:

Data Sheet Acronyms

ADC analog-to-digital converter

ARM advanced RISC machine

JTAG joint test action group

LSB

LVF

MCU microcontroller

MMR memory mapped register

MSB most significant byte/bit

PID

POR power-on reset

PSM power supply monitor

rms

Noise Free Code Resolution = log2

Effective Resolution = log2(Full-Scale Range/rms Noise) bits

6.6 × rms Noise

least significant byte/bit

low voltage flag

protected identifier

root mean square

⎛

⎜

⎝

Peak

Full

−

Scale

−

Peak

ADuC7060

Range

Noise

⎞

⎟

⎠

bits

EVAL-ADUC7060QSPZ Analog Devices Inc, EVAL-ADUC7060QSPZ Datasheet - Page 17

EVAL-ADUC7060QSPZ

Specifications of EVAL-ADUC7060QSPZ

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