AD9460-105LVDS/PCB Analog Devices Inc, AD9460-105LVDS/PCB Datasheet - Page 23
AD9460-105LVDS/PCB
Manufacturer Part Number
AD9460-105LVDS/PCB
Description
BOARD EVAL FOR AD9460-105
Manufacturer
Analog Devices Inc
Datasheet
1.AD9460BSVZ-80.pdf
(32 pages)
Specifications of AD9460-105LVDS/PCB
Number Of Adc's
1
Number Of Bits
16
Sampling Rate (per Second)
105M
Data Interface
Parallel
Inputs Per Adc
1 Differential
Input Range
*
Power (typ) @ Conditions
1.9W @ 105MSPS
Voltage Supply Source
Single
Operating Temperature
-40°C ~ 85°C
Utilized Ic / Part
AD9460-105
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
DIGITAL OUTPUTS
LVDS Mode
The off-chip drivers on the chip can be configured to provide
LVDS-compatible output levels via Pin 3 (OUTPUT MODE).
LVDS outputs are available when OUTPUT MODE is CMOS
logic high (or AVDD1 for convenience) and a 3.74 kΩ R
resistor is placed at Pin 5 (LVDS_BIAS) to ground. Dynamic
performance, including both SFDR and SNR, maximizes when
using the AD9460 in LVDS mode; designers are encouraged to
take advantage of this mode. The AD9460 outputs include com-
plementary LVDS outputs for each data bit (Dx+/Dx−), the
overrange output (OR+/OR−), and the output data clock output
(DCO+/DCO−). The R
setting the output current at each output equal to a nominal
3.5 mA (11 × I
placed at the LVDS receiver inputs results in a nominal 350 mV
swing at the receiver. LVDS mode facilitates interfacing with
LVDS receivers in custom ASICs and FPGAs that have LVDS
capability for superior switching performance in noisy environ-
ments. Single point-to-point net topologies are recommended,
with a 100 Ω termination resistor located as close to the receiver
as possible. It is recommended to keep the trace length less than
two inches and to keep differential output trace lengths as equal
as possible.
CMOS Mode
In applications that can tolerate a slight degradation in dynamic
performance, the AD9460 output drivers can be configured to
interface with 2.5 V or 3.3 V logic families by matching
DRVDD to the digital supply of the interfaced logic. CMOS
outputs are available when OUTPUT MODE is CMOS logic
low (or AGND for convenience). In this mode, the output data
bits, Dx, are single-ended CMOS, as is the overrange output,
OR+. The output clock serves as a differential CMOS signal,
DCO+/DCO−. Lower supply voltages are recommended to
avoid coupling switching transients back to the sensitive analog
sections of the ADC. Minimize the capacitive load to the CMOS
outputs and connect each output to a single gate through a
series resistor (220 Ω) to minimize switching transients caused
by the capacitive loading.
Table 10. Digital Output Coding
Code
65,536
32,768
32,767
0
VIN+ − VIN−
Input Span = 3.4 V p-p (V)
+1.700
0
−0.000052
−1.70
RSET
). A 100 Ω differential termination resistor
SET
resistor current is multiplied on-chip,
VIN+ − VIN−
Input Span = 2 V p-p (V)
+1.000
0
−0.000031
−1.00
SET
Rev. 0 | Page 23 of 32
Digital Output
Offset Binary (D15…D0)
1111 1111 1111 1111
1000 0000 0000 0000
0111 1111 1111 1111
0000 0000 0000 0000
TIMING
The AD9460 provides latched data outputs with a pipeline delay
of 13 clock cycles. Data outputs are available one propagation
delay (t
Figure 3 for detailed timing diagrams.
OPERATIONAL MODE SELECTION
Data Format Select
The data format select (DFS) pin of the AD9460 determines
the coding format of the output data. This pin is 3.3 V CMOS
compatible, with logic high (or AVDD1, 3.3 V) selecting twos
complement and DFS logic low (AGND) selecting offset binary
format. Table 10 summarizes the output coding.
Output Mode Select
The OUPUT MODE pin controls the logic compatibility,
as well as the pinout of the digital outputs. This pin is a CMOS-
compatible input. With OUTPUT MODE = 0 (AGND), the
AD9460 outputs are CMOS compatible, and the pin assignment
for the device is as defined in Table 8. With OUTPUT MODE = 1
(AVDD1, 3.3 V), the AD9460 outputs are LVDS compatible, and
the pin assignment for the device is as defined in Table 7.
Duty Cycle Stabilizer
The DCS circuit is controlled by the DCS MODE pin; a CMOS
logic low (AGND) on DCS MODE enables the DCS, and logic
high (AVDD1, 3.3 V) disables the controller.
SFDR Enhancement
Under certain conditions, the SFDR performance of the AD9460
improves by adding some additional power to the core of the
ADC. The SFDR control pin (Pin 100) is a CMOS-compatible
control pin to optimize the configuration of the AD9460 analog
front end. Connecting SFDR to AGND optimizes SFDR
performance for applications with analog input frequencies
<200 MHz for 80 MSPS and 105 MSPS speed grades. For
applications with analog inputs >200 MHz, this pin should be
connected to AVDD1 for optimum SFDR performance; power
dissipation from AVDD2 increases by ~70 mW for the
AD9460BSVZ-80 and ~20 mW for the AD9460BSVZ-105.
PD
) after the rising edge of CLK+. Refer to Figure 2 and
Digital Output
Twos Complement (D15…D0)
0111 1111 1111 1111
0000 0000 0000 0000
1111 1111 1111 1111
1000 0000 0000 0000
AD9460
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