AD9778ABSVZ Analog Devices Inc, AD9778ABSVZ Datasheet - Page 47
AD9778ABSVZ
Manufacturer Part Number
AD9778ABSVZ
Description
IC,D/A CONVERTER,DUAL,14-BIT,CMOS,TQFP,100PIN
Manufacturer
Analog Devices Inc
Specifications of AD9778ABSVZ
Number Of Bits
14
Data Interface
Parallel
Number Of Converters
2
Voltage Supply Source
Analog and Digital
Power Dissipation (max)
300mW
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
100-TQFP Exposed Pad, 100-eTQFP, 100-HTQFP, 100-VQFP
Package
100TQFP EP
Resolution
14 Bit
Conversion Rate
1 GSPS
Architecture
Interpolation Filter
Digital Interface Type
Parallel
Number Of Outputs Per Chip
2
Output Type
Current
Full Scale Error
±2(Typ) %FSR
Integral Nonlinearity Error
±1.5(Typ) LSB
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
AD9778A-EBZ - BOARD EVALUATION AD9778A
Settling Time
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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The DATACLKDIV only affects the DATACLK output frequency,
not the frequency of the data sampling clock. To maintain an
f
consistent with the expected data rate, DATACLKDIV should
be set to 00.
Table 27. DACCLK to DATACLK Divisor Values
Variable
IF
ZS
SP
DATACLKDIV
INPUT DATA REFERENCED TO REFCLK
In some systems, it may be more convenient to use the REFCLK
input than the DATACLK output as the input data timing
reference. If the frequency of DACCLK is equal to the frequency
of the data input (without interpolation), then the data with
respect to REFCLK± timing specifications in Table 28 apply
directly without further considerations. If the frequency of
DACCLK is greater than the frequency of the input data, a
divider is used to generate the DATACLK output (and the
internal data sampling clock). This divider creates a phase
ambiguity between REFCLK and DATACLK, which results in
uncertainty in the sampling time. To establish fixed setup and
hold times of the data interface, this phase ambiguity must be
eliminated.
To eliminate the phase ambiguity, the SYNC_I input pins (Pin 13
and Pin 14) must be used to force the data to be sampled on a
specific REFCLK edge. The relationship among REFCLK,
SYNC_I, and input data is shown in Figure 84 and Figure 85.
Therefore, both SYNC_I and data must meet the timing in
Table 28 for reliable data transfer into the device.
Table 28. Data Timing Specifications vs. Temperature
Timing Parameter
Data with Respect to REFCLK±
Data with Respect to DATACLK
SYNC_I± to REFCLK±
DATACLK
frequency that samples the input data that remains
Value
Interpolation factor (1, 2, 4,
or 8)
1, if zero stuffing is disabled
2, if zero stuffing is enabled
0.5, if single port is enabled
1, if dual port is selected
1, 2, or 4
Temperature
−40°C
+25°C
+85°C
−40°C to +85°C
−40°C
+25°C
+85°C
−40°C to +85°C
−40°C
+25°C
+85°C
−40°C to +85°C
0x01
0x01
0x02
0x03
Register
Address
Min t
−0.80
−1.00
−1.10
−0.80
2.50
2.70
3.00
0.30
0.25
0.15
0.30
3.00
S
(ns)
Bit
[7:6]
[0]
[6]
[5:4]
Rev. B | Page 47 of 56
Min t
3.50
3.80
3.80
−0.05
−0.20
−0.40
0.75
0.90
0.90
3.35
−0.05
0.65
PLL Disabled
H
(ns)
Note that even though the setup and hold times of SYNC_I
are relative to REFCLK, the SYNC_I input is sampled at the
internal DACCLK rate. In the case where the PLL is employed,
SYNC_I must be asserted to meet the setup time with respect to
REFCLK (t
rising edge of the internal SYNC_I sample clock. In other words,
the SYNC_I assert edge has to be placed between its successive
keep out windows that replicate at the DACCLK rate, not the
REFCLK rate. The valid window for asserting SYNC_I is
shaded gray in Figure 85 for the case where the PLL provides a
DACCLK frequency of four times the REFCLK frequency.
Thus, the minimum setup time is t
setup time is t
DACCLK
More details of the synchronization circuitry are found in the
Device Synchronization section of this data sheet.
Figure 84. Input Data Port Timing, Data Referenced to REFCLK, f
REFCLK
REFCLK
SYNC_I
SYNC_I
DATA
DATA
Min KOW (ns)
2.55
2.50
2.70
3.00
2.45
2.50
2.60
2.95
0.95
1.00
1.05
1.20
Figure 85. Input Data Port Timing, Data Referenced to REFCLK,
S_SYNC
DACCLK
), but cannot be asserted prior to the previous
t
SREFCLK
AD9776A/AD9778A/AD9779A
t
− t
DACCLK
Min t
−0.83
−1.06
−1.19
−0.83
2.50
2.70
3.00
3.00
0.27
0.19
0.06
0.27
H_SYNC
f
DACCLK
t
SREFCLK
t
HREFCLK
S
.
t
(ns)
S_SYNC
= f
t
H_SYNC
REFCLK
S_SYNC
Min t
3.87
4.04
4.37
4.37
−0.05
−0.20
−0.40
−0.05
1.17
1.29
1.47
1.47
× 4
PLL Enabled
t
HREFCLK
t
S_SYNC
, and the maximum
t
H_SYNC
H
(ns)
Min KOW (ns)
2.99
2.98
3.16
3.54
2.45
2.50
2.60
2.95
1.39
1.48
1.51
1.74
DACCLK
= f
REFCLK
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