AD9864 Analog Devices, AD9864 Datasheet - Page 31
AD9864
Manufacturer Part Number
AD9864
Description
IF Digitizing Subsystem
Manufacturer
Analog Devices
Datasheet
1.AD9864.pdf
(44 pages)
Specifications of AD9864
Resolution (bits)
24bit
# Chan
1
Sample Rate
18MSPS
Interface
Ser,SPI
Analog Input Type
Diff-Uni,SE-Uni
Adc Architecture
Sigma-Delta
Pkg Type
CSP
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VARIABLE GAIN CONTROL
The variable gain control is enabled by setting the AGCR field
of Register 0x06 to 0. In this mode, the gain of the VGA (and
the DVGA) can be adjusted by writing to the 16-bit AGCG
register. The maximum update rate of the AGCG register via
the SPI port is f
enables 16 dB of attenuation in the mixer. This feature allows
the AD9864 to cope with large level signals beyond the VGA’s
range (i.e., > –18 dBm at LNA input) to prevent overloading of
the ADC.
The lower 15 bits specify the attenuation in the remainder of
the signal path. If the DVGA is enabled, the attenuation range
is from –12 dB to +12 dB since the DVGA provides 12 dB of
digital gain. In this case, all 15 bits are significant. However,
with the DVGA disabled, the attenuation range extends from
0 dB to 12 dB and only the lower 14 bits are useful. Figure 59
shows the relationship between the amount of attenuation and
the AGC register setting for both cases.
Referring to Figure 58, the gain of the VGA is set by an 8-bit
control DAC that provides a control signal to the VGA appear-
–12
12
–6
0000
6
0
Figure 59. AGC Gain Range Characteristics vs. AGCG Register
VGA ENABLED
ONLY
Setting with and without DVGA Enabled
CLK
VGA ENABLED
1FFF
DVGA AND
/240. The MSB of this register is the bit that
AGCG SETTING (HEX)
GCP
Σ ∆ ADC
-
FS
3FFF
C
DAC
DEC1
VGA
DAC
÷12
C1
5FFF
DEC2
DEC3
AND
I + Q
I + Q
Figure 58. Functional Block Diagram of VGA and AGC
7FFF
RANGE
RANGE
DVGA
VGA
LARGER
SELECT
Rev. 0 | Page 31 of 44
REF LEVEL
AGCR
+
AGCA/AGCD
SCALING
K
ing at the gain control pin (GCP). For applications implement-
ing automatic gain control, the DAC’s output resistance can be
reduced by a factor of 9 to decrease the attack time of the AGC
response for faster signal acquisition. An external capacitor,
CDAC, from GCP to analog ground is required to smooth the
DAC’s output each time it updates as well as to filter wideband
noise. Note that CDAC, in combination with the DAC’s pro-
grammable output resistance, sets the –3 dB bandwidth and
time constant associated with this RC network.
A linear estimate of the received signal strength is performed at
the output of the first decimation stage (DEC1) and output of
the DVGA (if enabled), as discussed in the AGC section. This
data is available as a 6-bit RSSI field within an SSI frame with
60 corresponding to a full-scale signal for a given AGC attenua-
tion setting. The RSSI field is updated at f
with the 8-bit attenuation field (or AGCG attenuation setting)
to determine the absolute signal strength.
The accuracy of the mean RSSI reading (relative to the IF input
power) depends on the input signal’s frequency offset relative
to the IF frequency since both DEC1 filter’s response as well as
the ADC’s signal transfer function attenuate the mixer’s
downconverted signal level centered at f
estimated signal strength of input signals falling within prox-
imity to the IF is reported accurately, while those signals at
increasingly higher frequency offsets incur larger measurement
errors. Figure 60 shows the normalized error of the RSSI read-
ing as a function of the frequency offset from the IF frequency.
Note that the significance of this error becomes apparent when
determining the maximum input interferer (or blocker) levels
with the AGC enabled.
(1 – Z
1
RSSI DATA
–1
)
SETTING
AGCV
CV
DVGA
I/Q DATA
TO SSI
TO SSI
CLK
CLK
/8. As a result, the
/60 and can be used
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