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AD9248 Schematic ( PDF Datasheet ) - Analog Devices

Teilenummer AD9248
Beschreibung Dual A/D Converter
Hersteller Analog Devices
Logo Analog Devices Logo 




Gesamt 30 Seiten
AD9248 Datasheet, Funktion
14-Bit, 20 MSPS/40 MSPS/65 MSPS
Dual A/D Converter
AD9248
FEATURES
Integrated dual 14-bit ADC
Single 3 V supply operation (2.7 V to 3.6 V)
SNR = 71.6 dB (to Nyquist, AD9248-65)
SFDR = 80.5 dBc (to Nyquist, AD9248-65)
Low power: 300 mW/channel at 65 MSPS
Differential input with 500 MHz, 3 dB bandwidth
Exceptional crosstalk immunity > 85 dB
Flexible analog input: 1 V p-p to 2 V p-p range
Offset binary or twos complement data format
Clock duty cycle stabilizer
Output datamux option
APPLICATIONS
Ultrasound equipment
Direct conversion or IF sampling receivers
WB-CDMA, CDMA2000, WiMAX
Battery-powered instruments
Hand-held scopemeters
Low cost digital oscilloscopes
GENERAL DESCRIPTION
The AD9248 is a dual, 3 V, 14-bit, 20 MSPS/40 MSPS/65 MSPS
analog-to-digital converter (ADC). It features dual high
performance sample-and hold amplifiers (SHAs) and an
integrated voltage reference. The AD9248 uses a multistage
differential pipelined architecture with output error correction
logic to provide 14-bit accuracy and to guarantee no missing
codes over the full operating temperature range at up to
65 MSPS data rates. The wide bandwidth, differential SHA
allows for a variety of user-selectable input ranges and offsets,
including single-ended applications. It is suitable for various
applications, including multiplexed systems that switch full-
scale voltage levels in successive channels and for sampling
inputs at frequencies well beyond the Nyquist rate.
Dual single-ended clock inputs are used to control all internal
conversion cycles. A duty cycle stabilizer is available and can
compensate for wide variations in the clock duty cycle, allowing
the converter to maintain excellent performance. The digital
output data is presented in either straight binary or twos
complement format. Out-of-range signals indicate an overflow
condition, which can be used with the most significant bit to
determine low or high overflow.
Rev. B
Information furnished by Analog Devices is believed to be accurate and reliable.
However, no responsibility is assumed by Analog Devices for its use, nor for any
infringements of patents or other rights of third parties that may result from its use.
Specifications subject to change without notice. No license is granted by implication
or otherwise under any patent or patent rights of Analog Devices. Trademarks and
registered trademarks are the property of their respective owners.
FUNCTIONAL BLOCK DIAGRAM
AVDD AGND
VIN+_A
VIN–_A
SHA
ADC
14 14
OUTPUT
MUX/
BUFFERS
OTR_A
D13_A TO D0_A
OEB_A
REFT_A
REFB_A
VREF
SENSE
AGND
0.5V
REFT_B
REFB_B
VIN+_B
VIN–_B
SHA
AD9248
CLOCK
DUTY CYCLE
STABILIZER
MODE
CONTROL
MUX_SELECT
CLK_A
CLK_B
DCS
SHARED_REF
PWDN_A
PWDN_B
DFS
ADC
14 OUTPUT 14
MUX/
BUFFERS
OTR_B
D13_B TO D0_B
OEB_B
DRVDD DRGND
Figure 1.
Fabricated on an advanced CMOS process, the AD9248 is
available in a Pb-free, space saving, 64-lead LQFP or LFCSP and
is specified over the industrial temperature range (−40°C to
+85°C).
PRODUCT HIGHLIGHTS
1. Pin-compatible with the AD9238, 12-bit 20 MSPS/
40 MSPS/65 MSPS ADC.
2. Speed grade options of 20 MSPS, 40 MSPS, and 65 MSPS
allow flexibility between power, cost, and performance to suit
an application.
3. Low power consumption: AD9248-65: 65 MSPS = 600 mW,
AD9248-40: 40 MSPS = 330 mW, and AD9248-20: 20 MSPS =
180 mW.
4. Typical channel isolation of 85 dB @ fIN = 10 MHz.
5. The clock duty cycle stabilizer (AD9248-20/AD9248-40/
AD9248-65) maintains performance over a wide range of
clock duty cycles.
6. Multiplexed data output option enables single-port operation
from either Data Port A or Data Port B.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781.329.4700
www.analog.com
Fax: 781.461.3113 ©2005–2010 Analog Devices, Inc. All rights reserved.






AD9248 Datasheet, Funktion
AD9248
AC SPECIFICATIONS
AVDD = 3 V, DRVDD = 2.5 V, maximum sample rate, CLK_A = CLK_B; AIN = −0.5 dBFS differential input, 1.0 V external reference,
TMIN to TMAX, DCS Enabled, unless otherwise noted.
Table 2.
Parameter
SIGNAL-TO-NOISE RATIO (SNR)
fINPUT = 2.4 MHz
fINPUT = 9.7 MHz
fINPUT = 19.6 MHz
fINPUT = 35 MHz
fINPUT = 100 MHz
SIGNAL-TO-NOISE AND DISTORTION
RATIO (SINAD)
fINPUT = 2.4 MHz
fINPUT = 9.7 MHz
fINPUT = 19.6 MHz
fINPUT = 35 MHz
fINPUT = 100 MHz
EFFECTIVE NUMBER OF BITS (ENOB)
fINPUT = 2.4 MHz
fINPUT = 9.7 MHz
fINPUT = 19.6 MHz
fINPUT = 35 MHz
fINPUT = 100 MHz
WORST HARMONIC (SECOND or THIRD)
fINPUT = 2.4 MHz
fINPUT = 9.7 MHz
fINPUT = 19.6 MHz
fINPUT = 35 MHz
Test AD9248BST/BCP-20 AD9248BST/BCP-40 AD9248BST/BCP-65
Temp Level Min Typ Max Min Typ Max Min Typ Max Unit
Full V
25°C IV
Full V
25°C IV
Full V
25°C IV
Full V
25°C IV
25°C V
73.4
73.1 73.7
72.9
72.4 73.1
70
73.1
72.8 73.4
72.7
72.3 72.9
69.5
72.8
72.3 73.1
71.5
71.2 71.6
69.0
dB
dB
dB
dB
dB
dB
dB
dB
dB
Full V
25°C IV
Full V
25°C IV
Full V
25°C IV
Full V
25°C IV
25°C V
Full V
25°C IV
Full V
25°C IV
Full V
25°C IV
Full V
25°C IV
25°C V
Full V
25°C IV
Full V
25°C I
Full V
25°C I
Full V
25°C I
73.0
72.2 73.2
72.0
70.9 72.2
69.5
11.8
11.7 11.8
11.7
11.5 11.7
11.3
86.0
77.5 87.5
83.0
76.1 84.0
72.8
72.0 73.0
72.1
71.0 72.3
69.0
11.8
11.7 11.8
11.7
11.5 11.7
11.2
85.0
77.5 86.0
83.0
76.0 84.0
72.5
71.7 72.7
70.9
70.0 71.0
68.5
11.8
11.6 11.8
11.5
11.3 11.5
11.2
84.0
77.5 86.0
80.0
73.0 80.5
dB
dB
dB
dB
dB
dB
dB
dB
dB
Bits
Bits
Bits
Bits
Bits
Bits
Bits
Bits
Bits
dBc
dBc
dBc
dBc
dBc
dBc
dBc
dBc
Rev. B | Page 5 of 48

6 Page









AD9248 pdf, datenblatt
TERMINOLOGY
Aperture Delay
SHA performance measured from the rising edge of the clock
input to when the input signal is held for conversion.
Aperture Jitter
The variation in aperture delay for successive samples, which is
manifested as noise on the input to the ADC.
Integral Nonlinearity (INL)
Deviation of each individual code from a line drawn from
negative full scale through positive full scale. The point used as
negative full scale occurs ½ LSB before the first code transition.
Positive full scale is defined as a level 1½ LSB beyond the last
code transition. The deviation is measured from the middle of
each particular code to the true straight line.
Differential Nonlinearity (DNL, No Missing Codes)
An ideal ADC exhibits code transitions that are exactly 1 LSB
apart. DNL is the deviation from this ideal value. Guaranteed
no missing codes to 14-bit resolution indicates that all 16,384
codes must be present over all operating ranges.
Offset Error
The major carry transition should occur for an analog value
½ LSB below VIN+ = VIN−. Offset error is defined as the
deviation of the actual transition from that point.
Gain Error
The first code transition should occur at an analog value ½ LSB
above negative full scale. The last transition should occur at an
analog value 1½ LSB below the nominal full scale. Gain error is
the deviation of the actual difference between first and last code
transitions and the ideal difference between first and last code
transitions.
Temperature Drift
The temperature drift for zero error and gain error specifies the
maximum change from the initial (25°C) value to the value at
TMIN or TMAX.
Power Supply Rejection
The specification shows the maximum change in full scale from
the value with the supply at the minimum limit to the value
with the supply at its maximum limit.
Total Harmonic Distortion (THD)
The ratio of the rms sum of the first six harmonic components
to the rms value of the measured input signal, expressed as a
percentage or in decibels relative to the peak carrier signal (dBc).
AD9248
Signal-to-Noise and Distortion (SINAD) Ratio
The ratio of the rms value of the measured input signal to the
rms sum of all other spectral components below the Nyquist
frequency, including harmonics but excluding dc. The value for
SINAD is expressed dB.
Effective Number of Bits (ENOB)
Using the following formula
ENOB = (SINAD − 1.76)/6.02
ENOB for a device for sine wave inputs at a given input
frequency can be calculated directly from its measured SINAD.
Signal-to-Noise Ratio (SNR)
The ratio of the rms value of the measured input signal to the
rms sum of all other spectral components below the Nyquist
frequency, excluding the first six harmonics and dc. The value
for SNR is expressed in dB.
Spurious-Free Dynamic Range (SFDR)
The difference in dB between the rms amplitude of the input
signal and the peak spurious signal.
Nyquist Sampling
When the frequency components of the analog input are below
the Nyquist frequency (fCLOCK/2), this is often referred to as
Nyquist sampling.
IF Sampling
Due to the effects of aliasing, an ADC is not limited to Nyquist
sampling. Higher sampled frequencies are aliased down into the
first Nyquist zone (DC − fCLOCK/2) on the output of the ADC.
The bandwidth of the sampled signal should not overlap
Nyquist zones and alias onto itself. Nyquist sampling
performance is limited by the bandwidth of the input SHA and
clock jitter (jitter adds more noise at higher input frequencies).
Two-Tone SFDR
The ratio of the rms value of either input tone to the rms value
of the peak spurious component. The peak spurious component
may or may not be an IMD product.
Out-of-Range Recovery Time
The time it takes for the ADC to reacquire the analog input
after a transient from 10% above positive full scale to 10% above
negative full scale, or from 10% below negative full scale to 10%
below positive full scale.
Crosstalk
Coupling onto one channel being driven by a (−0.5 dBFS) signal
when the adjacent interfering channel is driven by a full-scale
signal. Measurement includes all spurs resulting from both
direct coupling and mixing components.
Rev. B | Page 11 of 48

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