AD9865BCP Analog Devices Inc, AD9865BCP Datasheet - Page 35
AD9865BCP
Manufacturer Part Number
AD9865BCP
Description
IC FRONT-END MIXED-SGNL 64-LFCSP
Manufacturer
Analog Devices Inc
Datasheet
1.AD9865-EB.pdf
(48 pages)
Specifications of AD9865BCP
Rohs Status
RoHS non-compliant
Rf Type
HPNA, VDSL
Features
10-bit ADC(s), 10-bit DAC(s)
Package / Case
64-VFQFN, CSP Exposed Pad
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The following scaling factor can be applied to the previous
formula to compensate for the RxPGA gain setting on f
This scaling factor reduces the calculated f
increased. Applications that need to maintain a minimum cut-
off frequency, f
determine the scaling factor for the highest RxPGA gain setting
to be used. Next, the f
factor to normalize to the 0 dB RxPGA gain setting (f
Equation 8 can then be used to calculate the target value.
The LPF frequency response shows a slight sensitivity to
temperature, as shown in Figure 74. Applications sensitive to
temperature drift can recalibrate the LPF by rewriting the target
value to Register 0x08.
Figure 74. Temperature Drift of f
Scale Factor = 1 − (RxPGA in dB)/382
35
30
25
20
15
35
33
31
29
27
25
23
21
19
17
15
96
Figure 73. Measured and Calculated f
48
50 MSPS MEASURED
50 MSPS CALCULATED
112
64
−3 dB_MIN
80
128
for f
TARGET-DECIMAL EQUIVALENT
TARGET-DECIMAL EQUIVALENT
96
−3 dB_MIN
, for all RxPGA gain settings should first
ADC
144
F
= 50 MSPS and 80 MSPS
112
OUT
F
OUT
160
−3 dB
F
ACTUAL 80MHz AND –40°C
should be divided by this scale
128
OUT
ACTUAL 80MHz AND +25°C
for f
ACTUAL 80MHz AND +85°C
176
144
ADC
80 MSPS MEASURED
80 MSPS CALCULATED
= 80 MSPS and RxPGA = 0 dB
160
192
−3 dB
−3 dB
vs. Target Value
176
208
as the RxPGA is
192
224
208
−3 dB_0 dB
240
−3 dB
224
:
).
Rev. A | Page 35 of 48
(9)
ANALOG-TO-DIGITAL CONVERTER (ADC)
The AD9865 features a 10-bit analog-to-digital converter
(ADC) capable of up to 80 MSPS. Referring to Figure 68, the
ADC is driven by the SPGA stage, which performs both the
sample-and-hold and the fine gain adjust functions. A buffer
amplifier (not shown) isolates the last CPGA gain stage from
the dynamic load presented by the SPGA stage. The full-scale
input span of the ADC is 2 V p-p, and depending on the PGA
gain setting, the full-scale input span into the SPGA is
adjustable from 1 V to 2 V in 1 dB increments.
A pipelined multistage ADC architecture is used to achieve high
sample rates while consuming low power. The ADC distributes
the conversion over several smaller A/D subblocks, refining the
conversion with progressively higher accuracy as it passes the
results from stage to stage on each clock edge. The ADC typi-
cally performs best when driven internally by a 50% duty cycle
clock. This is especially the case when operating the ADC at
high sample rate (55 MSPS to 80 MSPS) and/or lower internal
bias levels, which adversely affect interstage settling time
requirements.
The ADC sampling clock path also includes a duty cycle
restorer circuit, which ensures that the ADC gets a near 50%
duty cycle clock even when presented with a clock source with
poor symmetry (35/65). This circuit should be enabled if the
ADC sampling clock is a buffered version of the reference signal
appearing at OSCIN (see the Clock Synthesizer section), and if
this reference signal is derived from an oscillator or crystal
whose specified symmetry cannot be guaranteed to be within
45/55 (or 55/45). This circuit can remain disabled if the ADC
sampling clock is derived from a divided down version of the
clock synthesizer’s VCO, because this clock is near 50%.
The ADC’s power consumption can be reduced by 25 mA, with
minimal effect on its performance, by setting Bit 4 of Register
0x07. Alternative power bias settings are also available via
Register 0x13, as discussed in the Power Control and
Dissipation section. Lastly, the ADC can be completely powered
down for half-duplex operation, further reducing the AD9865’s
peak power consumption.
AD9865
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