AD6655BCPZ-80 Analog Devices Inc, AD6655BCPZ-80 Datasheet - Page 59
AD6655BCPZ-80
Manufacturer Part Number
AD6655BCPZ-80
Description
IC IF DIVERSITY RECEIVER 64LFCSP
Manufacturer
Analog Devices Inc
Datasheet
1.AD6655-125EBZ.pdf
(88 pages)
Specifications of AD6655BCPZ-80
Function
IF Diversity Receiver
Frequency
450MHz
Rf Type
Cellular, CDMA2000, GSM EDGE, W-CDMA
Secondary Attributes
32-Bit Numerically Controlled Oscillator
Package / Case
64-VFQFN, CSP Exposed Pad
Receiving Current
420mA
Frequency Range
450MHz
Rf Ic Case Style
LFCSP
No. Of Pins
64
Supply Voltage Range
1.7V To 1.9V
Operating Temperature Range
-40°C To +85°C
Frequency Max
650MHz
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
AD6655-150EBZ - BOARD EVAL FOR 150MSPS AD6655AD6655-125EBZ - BOARD EVAL W/AD6655 & SOFTWARE
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
APPLICATIONS INFORMATION
DESIGN GUIDELINES
Before starting system-level design and layout of the AD6655,
it is recommended that the designer become familiar with these
guidelines, which discuss the special circuit connections and
layout requirements needed for certain pins.
Power and Ground Recommendations
When connecting power to the AD6655, it is recommended
that two separate 1.8 V supplies be used: one supply should be
used for analog (AVDD) and digital (DVDD), and a separate
supply should be used for the digital outputs (DRVDD). The
AVDD and DVDD supplies, while derived from the same source,
should be isolated with a ferrite bead or filter choke and separate
decoupling capacitors. The designer can employ several different
decoupling capacitors to cover both high and low frequencies.
These capacitors should be located close to the point of entry
at the PC board level and close to the pins of the part with
minimal trace length.
A single PCB ground plane should be sufficient when using the
AD6655. With proper decoupling and smart partitioning of the
PCB analog, digital, and clock sections, optimum performance
is easily achieved.
f
Because the AD6655 output data rate is at one-half the sampling
frequency, there is significant f
part. If this f
that this f
or the analog inputs of the AD6655. When f
in this fashion, it appears as a spurious tone reflected around f
3f
application with a 90 MHz single-tone analog input, this energy
generates a tone at 97.5 MHz. In this example, the center of the
Nyquist zone is 93.75 MHz; therefore, the 90 MHz input signal is
3.75 MHz from the center of the Nyquist zone. As a result, the f
spurious tone appears at 97.5 MHz, or 3.75 MHz above the center
of the Nyquist zone. These frequencies are then tuned by the NCOs
before being output by the AD6655.
Depending on the relationship of the IF frequency to the center
of the Nyquist zone, this spurious tone may or may not exist in the
AD6655 output band. Some residual f
the AD6655, and the level of this spur is typically below the
level of the harmonics at clock rates of 125 MSPS and below.
Figure 82 shows a plot of the f
frequency for the AD6655-125. At sampling rates above
125 MSPS, the f
than the worst harmonic, as shown in Figure 83, which shows
the AD6655-150 f
S
/2 Spurious
S
/4, 5f
S
/4, and so on. For example, in a 125 MSPS sampling
S
/2 energy does not couple into either the clock circuit
S
/2 spur falls in band, care must be taken to ensure
S
/2 spur level increases and is at a higher level
S
/2 levels.
S
S
/2 spur level vs. analog input
/2 energy in the outputs of the
S
/2 energy is present in
S
/2 energy is coupled
S
Rev. A | Page 59 of 88
S
/2
/4,
For the specifications provided in Table 2, the f
band, is excluded from the SNR values. It is treated as a
harmonic, in terms of SNR. The f
SFDR and worst other specifications.
Operating the part with a 1.8 V DRVDD voltage rather than a 3.3 V
DRVDD lowers the f
interleaved, or CMOS IQ output modes also reduces the f
spurious level.
LVDS Operation
The AD6655 defaults to CMOS output mode on power-up.
If LVDS operation is desired, this mode must be programmed
using the SPI configuration registers after power-up. When the
AD6655 powers up in CMOS mode with LVDS termination
resistors (100 Ω) on the outputs, the DRVDD current can be
higher than the typical value until the part is placed in LVDS
mode. This additional DRVDD current does not cause damage
to the AD6655, but it should be taken into account when consid-
ering the maximum DRVDD current for the part.
Figure 82. AD6655-125 SFDR and f
Figure 83. AD6655-150 SFDR and f
–100
–110
–120
–100
–110
–120
–60
–70
–80
–90
–60
–70
–80
–90
0
0
with DRVDD = 1.8 V Parallel CMOS Output Mode
with DRVDD = 1.8 V Parallel CMOS Output Mode
f
S
50
50
/2 SPUR
f
S
–SFDR
–SFDR
/2 SPUR
100
100
S
ANALOG INPUT FREQUENCY (MHz)
/2 spur. In addition, using LVDS, CMOS
150
150
INPUT FREQUENCY (MHz)
200
200
S
S
/2 Spurious Level vs. Input Frequency (f
/2 Spurious Level vs. Input Frequency (f
S
250
250
/2 level is included in the
300
300
350
350
S
/2 spur, if in
400
400
AD6655
450
450
500
500
S
/2
IN
IN
)
)
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