MAX114 Datasheet, PDF(11/12 Page) Maxim Integrated Products – +5V, 1Msps, 4 & 8-Channel, 8-Bit ADCs with 1μA Power-Down

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MAX114 Datasheet, PDF (11/12 Pages) Maxim Integrated Products – +5V, 1Msps, 4 & 8-Channel, 8-Bit ADCs with 1μA Power-Down

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+5V, 1Msps, 4 & 8-Channel,

8-Bit ADCs with 1ÂµA Power-Down

Transfer Function

Figure 10 shows the MAX114/MAX118âs nominal trans-

fer function. Code transitions occur halfway between

successive-integer LSB values. Output coding is binary

with 1LSB = (VREF+ - VREF-) / 256.

Conversion Rate

The maximum sampling rate (fMAX) for the MAX114/

MAX118 is achieved in write-read mode (tRD < tINTL),

and is calculated as follows:

fMAX = t WR

t RD

t RI

t ACQ

fMAX

250ns

150ns

160ns

fMAX = 1.23MHz

where tWR = the write pulse width, tRD = the delay

between write and read pulses, tRI = RD to INT delay,

and tACQ = minimum acquisition time.

Signal-to-Noise Ratio and

Effective Number of Bits

Signal-to-noise plus distortion (SINAD) is the ratio of the

fundamental input frequencyâs RMS amplitude to all

other ADC output signals. The output spectrum is limit-

ed to frequencies above DC and below one-half the

ADC sample rate.

The theoretical minimum analog-to-digital noise is

caused by quantization error, and results directly from

the ADCâs resolution: SNR = (6.02N + 1.76)dB, where

N is the number of bits of resolution. Therefore, a per-

fect 8-bit ADC can do no better than 50dB.

The FFT Plot (see Typical Operating Characteristics)

shows the result of sampling a pure 195.8kHz sinusoid

at a 1MHz rate. This FFT plot of the output shows the

output level in various spectral bands.

The effective resolution (or âeffective number of bitsâ)

the ADC provides can be measured by transposing the

equation that converts resolution to SNR: N = (SINAD -

1.76) / 6.02 (see Typical Operating Characteristics).

Total Harmonic Distortion

Total harmonic distortion (THD) is the ratio of the RMS

sum of all harmonics of the input signal (in the frequency

OUTPUT CODE

11111111

11111110

11111101

FULL-SCALE

TRANSITION

1LSB = VREF+ - VREF-

256

00000011

00000010

00000001

00000000

VREF-

123

INPUT VOLTAGE (LSBs)

Figure 10. Transfer Function

FS - 1LSB

VREF+

band above DC and below one-half the sample rate) to

the fundamental itself. This is expressed as:

ï£®

THD = 20logï£¯ï£¯

ï£°ï£¯

V2 2

+ V32

+ V42

+ ...VN2

ï£¹

ï£º

ï£»ï£º

where V1 is the fundamental RMS amplitude, and V2

through VN are the amplitudes of the 2nd through Nth

harmonics.

Spurious-Free Dynamic Range

Spurious-free dynamic range (SFDR) is the ratio of the

fundamental RMS amplitude to the amplitude of the

next largest spectral component (in the frequency

band above DC and below one-half the sample rate).

Usually the next largest spectral component occurs at

some harmonic of the input frequency. However, if the

ADC is exceptionally linear, it may occur only at a ran-

dom peak in the ADCâs noise floor. See the Signal-to-

Noise Ratio graph in Typical Operating Characteristics.

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