AD775 Analog Devices, AD775 Datasheet - Page 8
AD775
Manufacturer Part Number
AD775
Description
8-Bit 20 MSPS/ 60 mW Sampling A/D Converter
Manufacturer
Analog Devices
Datasheet
1.AD775.pdf
(12 pages)
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AD775
The analog input range is set by the voltage at the top and bot-
tom of the reference ladder. In general, the larger the span
(V
converter; a 1.8 V span is suggested as a minimum to realize
good linearity performance. AS the input voltage exceeds 2.8 V
(for AV
degrade the acquisition performance.
CLOCK INPUT
The AD775’s internal control circuitry makes use of both clock
edges to generate on-chip timing signals. To ensure proper
settling and linearity performance, both t
should be 25 ns or greater. For sampling frequencies at or near
20 MSPS, a 50% duty cycle clock is recommended. For slower
sampling applications, the AD775 can accommodate a wider
range of duty cycles, provided each clock phase is as least 25 ns.
Under certain conditions, the AD775 can be operated at sam-
pling rates above 20 MSPS. Figure 14 shows the signal-to-noise
plus distortion (S/(N+D)) performance of a typical AD775
versus clock frequency. It is extremely important to note that the
maximum clock rate will be a strong function of both temperature and
supply voltage. In general, the part slows down with increasing
temperature and decreasing supply voltage.
A significant portion of the AD775’s power dissipation is pro-
portional to the clock frequency: Figure 15 illustrates this
tradeoff for a typical part.
Figure 14. S(N + D) vs. Clock Frequency (Temperature
= +25 C)
RT
–V
0V
RB
DD
+5V
50
40
30
20
10
DC
0
), the better the differential nonlinearity (DNL) of the
0.1
= 4.75 V), the input circuitry may start to slightly
Figure 13. Level Shifting Input Buffer
5.6k
1k
10 F
CLOCK FREQUENCY – MHz
1
1k
AD817
1k
CH
10
and t
CL
1.5V
times
DC
19
100
A
AD775
IN
–8–
In applications sensitive to aperture jitter, the clock signal
should have a fall time of less than 3 ns. High speed CMOS
logic families (HC/HCT) are recommended for their symmetri-
cal swing and fast rise/fall times. Care should be taken to mini-
mize the fanout and capacitive loading of the clock input line.
DIGITAL INPUTS AND OUTPUTS
The AD775’s digital interface uses standard CMOS, with logic
thresholds roughly midway between the supplies (DV
The digital output is presented in straight binary format, with
full scale (1111 1111) corresponding to V
(0000 0000) corresponding to V
loading of the digital output lines will increase the dynamic
power dissipation as well as the on-chip digital noise. Logic
fanout and parasitic capacitance on these lines should be mini-
mized for optimum noise performance.
The data output lines may be placed in a high output impedance
state by bringing OE (Pin 1) to a logic high. Figure 16 indicates
typical timing for access and float delay times (t
respectively). Note that even when the outputs are in a high
impedance state, activity on the digital bus can couple back to
the sensitive analog portions of the AD775 and corrupt conver-
sions in progress.
OUTPUT
DATA
Figure 15. Power Dissipation vs. Clock Frequency
OE
Figure 16. High Impedance Output Timing
100
t
DD
90
80
70
60
50
40
30
THREE-STATE
(HIGH IMPEDANCE)
= 18ns TYPICAL
0
t
DD
10
CLOCK FREQUENCY – MHz
t
HL
= 12ns TYPICAL
IN
20
= V
DATA ACTIVE
RB
. Excessive capacitive
IN
= V
30
t
HL
RT
HL
, and zero
and t
SS
, DV
REV. 0
40
DD
DD
).
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