AD7893BR-5 Analog Devices, AD7893BR-5 Datasheet - Page 11

AD7893BR-5

Manufacturer Part Number

AD7893BR-5

Description

LC2MOS 12-Bit/ Serial 6 us ADC in 8-Pin Package

Manufacturer

Analog Devices

Datasheet

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The same data is presented in Figure 11 as in Figure 10 except

that, in this case, the output data read for the device occurs dur-

ing conversion. This has the effect of injecting noise onto the die

while bit decisions are being made; this increases the noise gen-

erated by the AD7893. The histogram plot for 8192 conversions

of the same dc input now shows a larger spread of codes with

the rms noise for the AD7893-2 increasing to 210 V. This ef-

fect will vary depending on where the serial clock edges appear

with respect to the bit trials of the conversion process. It is pos-

sible to achieve the same level of performance when reading

during conversion as when reading after conversion, depending

on the relationship of the serial dock edges to the bit trial points.

Figure 11. Histogram of 8192 Conversions with Read Dur-

ing Conversion

Dynamic Performance

With a combined conversion and acquisition time of 7.5 s, the

AD7893 is ideal for wide bandwidth signal processing applica-

tions. These applications require information on the ADC’s

effect on the spectral content of the input signal. Signal to (noise

+ distortion) ratio, total harmonic distortion, peak harmonic or

spurious noise, and intermodulation distortion are all specified.

Figure 12 shows a typical FFT plot of a 10 kHz, 0 V to +2.5 V

input after being digitized by the AD7893-2, operating at a

102.4 kHz sampling rate. The signal to (noise + distortion)

ratio is 71.5 dB, and the total harmonic distortion is –83 dB.

REV. E

–120

–180

–30

–60

–80

7500

7000

6500

6000

5500

5000

4500

4000

3500

3000

2500

2000

1500

1000

500

(X–4) (X–3)

SAMPLING

FREQUENCY = 102.4kHz

SNR IS SIGNAL TO (NOISE AND DISTORTION) RATIO

= +25 C

Figure 12. AD7893 FFT Plot

(X–2) (X–1)

FREQUENCY – kHz

SAMPLE RATE = 102.4kHz

INPUT FREQUENCY = 10kHz

SNR = 71.5dB

= +25 C

25.6

CODE

(X+1) (X+2) (X+3) (X+4)

51.2

–11–

Effective Number of Bits

The formula for signal to (noise + distortion) ratio (see Termi-

nology section) is related to the resolution or number of bits in

the converter. Rewriting the formula gives a measure of perfor-

mance expressed in effective number of bits (N):

where SNR is Signal to (Noise + Distortion) Ratio.

The effective number of bits for a device can be calculated from

its measured signal to (noise + distortion) ratio. Figure 13 shows

a typical plot of effective number of bits versus frequency for the

AD7893-2 from dc to f

102.4 kHz. The plot shows that the AD7893 converts an input

sine wave of 51.2 kHz to an effective numbers of bits of 11,

which equates to a signal to (noise + distortion) level of 68 dB.

Figure 13. Effective Number of Bits vs. Frequency

12.0

11.5

11.0

10.5

10.0

N = (SNR – 1.76) / 6.02

SAMPLING

INPUT FREQUENCY – kHz

/2. The sampling frequency is

25.6

AD7893

51.2

AD7893BR-5 Analog Devices, AD7893BR-5 Datasheet - Page 11

AD7893BR-5

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