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AD9070 Arkusz danych(PDF) 9 Page - Analog Devices

Numer części AD9070
Szczegółowy opis  10-Bit, 100 MSPS A/D Converter
Download  16 Pages
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Producent  AD [Analog Devices]
Strona internetowa  http://www.analog.com
Logo AD - Analog Devices

AD9070 Arkusz danych(HTML) 9 Page - Analog Devices

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AD9070
–9–
REV. C
APPLICATION NOTES
Theory of Operation
The AD9070 employs a two-step subranging architecture with
digital error correction.
The sampling and conversion process is initiated by a rising
edge at the ENCODE input. The analog input signal is buffered
by a high speed differential amplifier and applied to a track-
and-hold (T/H) circuit that captures the value of the input at
the sampling instant and maintains it for the duration of the
conversion.
The coarse quantizer (ADC) produces a five-bit estimate of the
input value. Its digital output is reconverted to analog form by
the reconstruction DAC and subtracted from the input signal in
the SUM AMP. The second stage quantizer generates a six-bit
representation of the difference signal. The eleven bits are
presented to the ENCODE LOGIC, which corrects for range
overlap errors and produces an accurate ten-bit result.
Data are strobed to the output on the rising edge of the ENCODE
input, with the data from sample N appearing on the output
following ENCODE rising edge N+3.
USING THE AD9070
ENCODE Input
Any high speed A/D converter is extremely sensitive to the quality
of the sampling clock provided by the user. A Track/Hold circuit is
essentially a mixer, and any noise, distortion or timing jitter on
the clock will be combined with the desired signal at the A/D
output. For that reason, considerable care has been taken in the
design of the ENCODE input of the AD9070 and the user is
advised to give commensurate thought to the clock source.
The ENCODE input is fully differential and may be operated in
a differential or a single-ended mode. It has a common-mode
range of –1 V to –3 V, and is easily driven by a differential ECL
driver. Proper termination at the A/D is important.
AD9070
10k
1k
ENCODE
ENCODE
VEE
–5V
GND
RT
0.1 F
3k
0.1 F
CLKIN
(1Vp-p)
–5V
Figure 7. Single-Ended ENCODE: AC-Coupled
In single-ended mode, the
ENCODE input must be tied to an
appropriate reference voltage, generally midway between the
high and the low levels of the incoming logic signal. Many
ECL circuits provide a VBB reference voltage intended for
this purpose. If a reference voltage is produced by dividing
the power supply voltage, any noise on the supply used will
couple to the clock input and then to the output data. This is
not recommended. A better approach is to develop the required
voltage from the internal or external converter voltage reference
(VREF OUT).
Very small timing errors can reduce the performance of an A/D
dramatically. Total jitter of only 3.2 ps will limit the perfor-
mance of an A/D sampling a full-scale 50 MHz signal to nine
effective bits. The AD9070’s specified aperture jitter of 2.5 ps
leaves only 2.0 ps of jitter budget for the clock source (an RSS
calculation).
The cleanest clock source is only a crystal oscillator producing
a pure sine wave. In this configuration, or with any roughly
symmetrical clock input, the input can be ac coupled and biased
to a reference voltage that also provides the
ENCODE input
(Figure 7). This ensures that the reference voltage is centered
on the ENCODE signal.
Digital Outputs
The digital outputs are compatible with 10K ECL logic. The
suggested pull-down is 100
Ω to –2 V. However, to reduce power
consumption, higher value pull-down resistors can be used
when driving very low capacitance loads or at reduced encode
rates. The falling edge slew rate of the output bits will be degraded
with higher value pull-down resistors.
Analog Input
The analog input to the AD9070 is a differential amplifier, but
the design has been optimized for a single-ended input. The
AIN input should be connected or bypassed to the ground
reference of the input signal. For best dynamic performance,
impedances at AIN and
AIN should match.
The circuit in Figure 8 illustrates a simple ac-coupled interface.
The midscale input voltage and the
AIN levels are both provided
by the internal reference (VREF OUT).
AD9070
ENCODE
ENCODE
VEE
–5V
GND
500
0.1 F
RT
ENCODE
ENCODE
VIN
1Vp-p
AIN
AIN
VREF OUT
VREF IN
(MSB) D9
510
(OR 100
TO –2V)
D9
–5V
(LSB) D0
510
(OR 100
TO –2V)
D0
–5V
COMP
REF
BYPASS
0.1 F
500
0.1 F
0.1 F
Figure 8. AD9070 in –5 V (ECL) Environment


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