AD7476ARTZ-500RL7 Analog Devices Inc, AD7476ARTZ-500RL7 Datasheet - Page 8
AD7476ARTZ-500RL7
Manufacturer Part Number
AD7476ARTZ-500RL7
Description
IC ADC 12BIT 1MSPS SOT-23-6
Manufacturer
Analog Devices Inc
Datasheet
1.AD7476ARTZ-500RL7.pdf
(20 pages)
Specifications of AD7476ARTZ-500RL7
Data Interface
DSP, MICROWIRE™, QSPI™, Serial, SPI™
Design Resources
Output Channel Monitoring Using AD5380 (CN0008) AD5382 Channel Monitor Function (CN0012) AD5381 Channel Monitor Function (CN0013) AD5383 Channel Monitor Function (CN0015) AD5390/91/92 Channel Monitor Function (CN0030) Power off protected data acquisition signal chain using ADG4612 , AD711, and AD7476 (CN0165)
Number Of Bits
12
Sampling Rate (per Second)
1M
Number Of Converters
1
Power Dissipation (max)
17.5mW
Voltage Supply Source
Single Supply
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
SOT-23-6
Resolution (bits)
12bit
Sampling Rate
1MSPS
Input Channel Type
Single Ended
Supply Voltage Range - Analog
2.7V To 5.25V
Supply Current
3.5mA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
EVAL-AD7476ACBZ - BOARD EVALUATION FOR AD7476AAD7476-DBRD - BOARD EVAL FOR AD7476AD7476A-DBRD - BOARD EVAL FOR AD7476A
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
AD7476ARTZ-500RL7TR
Available stocks
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Manufacturer
Quantity
Price
Company:
Part Number:
AD7476ARTZ-500RL7
Manufacturer:
ADI
Quantity:
2
AD7476/AD7477/AD7478
TERMINOLOGY
Integral Nonlinearity
This is the maximum deviation from a straight line passing through
the endpoints of the ADC transfer function. For the AD7476/
AD7477, the endpoints of the transfer function are zero scale, a
point 1/2 LSB below the first code transition, and full scale, a
point 1/2 LSB above the last code transition. For the AD7478, the
endpoints of the transfer function are zero scale, a point 1 LSB
below the first code transition, and full scale, a point 1 LSB above
the last code transition.
Differential Nonlinearity
This is the difference between the measured and the ideal 1 LSB
change between any two adjacent codes in the ADC.
Offset Error
This is the deviation of the first code transition (00 . . . 000)
to (00 . . . 001) from the ideal (i.e., AGND + 0.5 LSB). For
the AD7478, this is the deviation of the first code transition
(00 . . . 000) to (00 . . . 001) from the ideal (i.e., AGND + 1 LSB).
Gain Error
For the AD7476/AD7477, this is the deviation of the last code
transition (111 . . . 110) to (111 . . . 111) from the ideal (i.e.,
V
the AD7478, this is the deviation of the last code transition
(111 . . . 110) to (111 . . . 111) from the ideal (i.e., V
after the offset error has been adjusted.
Track-and-Hold Acquisition Time
The track-and-hold amplifier returns into track mode after the
end of conversion. Track-and-hold acquisition time is the time
required for the output of the track-and-hold amplifier to reach
its final value, within ± 0.5 LSB, after the end of conversion. See
the Serial Interface Timing section for more detail.
Signal-to-(Noise + Distortion) Ratio
This is the measured ratio of signal-to-(noise + distortion) at the
output of the ADC. The signal is the rms amplitude of the
fundamental. Noise is the sum of all nonfundamental signals up
to half the sampling frequency (f
The ratio is dependent on the number of quantization levels in
the digitization process; the more levels, the smaller the quanti-
zation noise. The theoretical signal-to-(noise + distortion) ratio
for an ideal N-bit converter with a sine wave input is given by
Thus for a 12-bit converter, this is 74 dB; for a 10-bit converter
it is 62 dB; and for an 8-bit converter it is 50 dB.
REF
– 1.5 LSB) after the offset error has been adjusted out. For
Signal-to-(Noise + Distortion) = (6.02N + 1.76) dB
S
/2), excluding dc.
REF
– 1 LSB)
–8–
Total Unadjusted Error
This is a comprehensive specification that includes gain error,
linearity error, and offset error.
Total Harmonic Distortion (THD)
Total harmonic distortion is the ratio of the rms sum of harmon-
ics to the fundamental. For the AD7476/AD7477/AD7478, it is
defined as:
where V
V
sixth harmonics.
Peak Harmonic or Spurious Noise
Peak harmonic or spurious noise is defined as the ratio of the
rms value of the next largest component in the ADC output
spectrum (up to f
fundamental. Normally, the value of this specification is deter-
mined by the largest harmonic in the spectrum, but for ADCs
where the harmonics are buried in the noise floor, it will be a
noise peak.
Intermodulation Distortion
With inputs consisting of sine waves at two frequencies, fa and
fb, any active device with nonlinearities will create distortion
products at sum and difference frequencies of mfa ± nfb where
m, n = 0, 1, 2, 3, and so on. Intermodulation distortion terms
are those for which neither m nor n is equal to zero. For example,
the second-order terms include (fa + fb) and (fa – fb), while the
third-order terms include (2fa + fb), (2fa – fb), (fa + 2fb), and
(fa – 2fb).
The AD7476/AD7477/AD7478 are tested using the CCIF
standard where two input frequencies are used, fa = 498.7 kHz and
fb = 508.7 kHz. In this case, the second-order terms are usually
distanced in frequency from the original sine waves while the
third-order terms are usually at a frequency close to the input
frequencies. As a result, the second- and third-order terms are
specified separately. The calculation of the intermodulation
distortion is as per the THD specification where it is the ratio of
the rms sum of the individual distortion products to the rms
amplitude of the sum of the fundamentals, expressed in dB.
4
, V
5
, and V
THD
1
is the rms amplitude of the fundamental and V
(
dB =
6
are the rms amplitudes of the second through the
)
S
/2 and excluding dc) to the rms value of the
20
log
(
V
2
2
+
V
3
2
+
V
V
1
4
2
+
V
5
2
+
V
6
2
REV. D
)
2
, V
3
,
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