EVAL-AD7864-3CB Analog Devices Inc, EVAL-AD7864-3CB Datasheet - Page 21

EVAL-AD7864-3CB

Manufacturer Part Number

EVAL-AD7864-3CB

Description

BOARD EVAL FOR AD7864-3

Manufacturer

Analog Devices Inc

Datasheet

1.AD7864ASZ-1.pdf (28 pages)

Specifications of EVAL-AD7864-3CB

Rohs Status

RoHS non-compliant

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

520k

Data Interface

Parallel

Inputs Per Adc

4 Differential

Input Range

±2.5 V

Power (typ) @ Conditions

90mW @ 520kSPS

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

AD7864-3

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DYNAMIC SPECIFICATIONS

The AD7864 is specified and 100% tested for dynamic perfor-

mance specifications as well as traditional dc specifications, such

as integral and differential nonlinearity. These ac specifications are

required for signal processing applications such as phased array

sonar, adaptive filters, and spectrum analysis. These applications

require information on the effect of the ADC on the spectral

content of the input signal. Thus, the parameters for which the

AD7864 is specified include SNR, harmonic distortion, inter-

modulation distortion, and peak harmonics. These terms are

discussed in more detail in the following sections.

SIGNAL-TO-NOISE RATIO (SNR)

SNR is the measured signal-to-noise ratio at the output of the

ADC. The signal is the rms magnitude of the fundamental.

Noise is the rms sum of all the nonfundamental signals up to

half of the sampling frequency (f

on the number of quantization levels used in the digitization

process; the more levels, the smaller the quantization noise. The

theoretical signal-to-noise ratio for a sine wave input is given by

where N is the number of bits.

Thus, for an ideal 12-bit converter, SNR = 74 dB.

Figure 16 shows a histogram plot for 8192 conversions of a dc

input using the AD7864 with a 5 V supply. The analog input was

set at the center of a code. The figure shows that all the codes

appear in the one output bin, indicating very good noise

performance from the ADC.

The output spectrum from the ADC is evaluated by applying a

sine wave signal of very low distortion to the analog input. A

fast fourier transform (FFT) plot is generated from which the

SNR data can be obtained. Figure 17 shows a typical 4096 point

FFT plot of the AD7864 with an input signal of 99.9 kHz and a

sampling frequency of 500 kHz. The SNR obtained from this

SNR = (6.02N + 1.76) dB

9000

8000

7000

6000

5000

4000

3000

2000

1000

Figure 16. Histogram of 8192 Conversions of a DC Input

1054

ADC CODE

/2) excluding dc. SNR depends

Rev. D | Page 21 of 28

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graph is 72.6 dB. Note that the harmonics are taken into

account when calculating the SNR.

EFFECTIVE NUMBER OF BITS

The formula given in Equation 1 relates the SNR to the number

of bits. Rewriting the formula, as in Equation 2, it is possible to

get a measure of performance expressed in effective number of

bits (N).

The effective number of bits for a device can be calculated

directly from its measured SNR. Figure 18 shows a typical plot

of effective number of bits vs. frequency for an AD7864-2.

INTERMODULATION DISTORTION

With inputs consisting of sine waves at two frequencies, fa and

fb, any active device with nonlinearities creates distortion products

at sum and difference frequencies of mfa ± nfb where m, n = 0,

1, 2, 3, and so forth. Intermodulation terms are those for which

neither m nor n are equal to zero. For example, the second-order

–100

–110

–10

–20

–30

–40

–50

–60

–70

–80

–90

SNR

Figure 18. Effective Numbers of Bits vs. Frequency

. 6

−

500

. 1

1000

Figure 17. FFT Plot

FREQUENCY (kHz)

100

1500

INPUT FREQUENCY OF 99,857Hz

+105°C

150

SAMPLING AT 499,712Hz

2000

8192 SAMPLES TAKEN

–40°C

AD7864-1 @ 25°C

200

2500

5V SUPPLY

+25°C

AD7864

3000

250

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EVAL-AD7864-3CB Analog Devices Inc, EVAL-AD7864-3CB Datasheet - Page 21

EVAL-AD7864-3CB

Specifications of EVAL-AD7864-3CB

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