AD607 查看數據表(PDF) - Analog Devices
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AD607 Datasheet PDF : 24 Pages
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AD607
As noted earlier, the gain in dB is reduced linearly with the voltage
VG on the GAIN pin. Figure 23 shows how the mixer and IF strip
gains vary with VG when GREF is connected to VMID (1.5 V) and
a supply voltage of 3 V is used. Figure 24 shows how these vary
when GREF is connected to a 1.23 V reference.
90dB
80dB
70dB
60dB
(67.5dB)
50dB
IF GAIN
40dB
30dB
20dB
10dB
0dB
0
(21.5dB)
MIXER GAIN
(7.5dB)
(1.5dB)
0.4V
1V
1.8V 2V 2.2V
NORMAL OPERATING RANGE
VG
Figure 23. Gain Distribution for GREF = 1.5 V
90dB
80dB
70dB
60dB
(67.5dB)
50dB
40dB
IF GAIN
30dB
20dB
10dB
0dB
0
(21.5dB)
MIXER GAIN
(7.5dB)
(1.5dB)
0.328V
1V
1.64V
NORMAL OPERATING RANGE
2V
VG
Figure 24. Gain Distribution for GREF = 1.23 V
Using the AD607 with a Fast PRUP Control Signal
If the AD607 is used in a system in which the PRUP signal
(Pin 3) is applied with a rise time less than 35 µs, anomalous
behavior occasionally occurs. The problem is intermittent, so it
will not occur every time the part is powered up under these
conditions. It does not occur for any other normal operating condi-
tions when the PRUP signal has a rise time slower than 35 µs.
Symptoms of operation with too fast a PRUP signal include low
gain, oscillations at the I or Q outputs of the device, or no valid
data occurring at the output of the AD607. The problem causes
no permanent damage to the AD607, so it will often operate
normally when reset.
Fortunately, there is a very simple solution to the fast PRUP
problem. If the PRUP signal (Pin 3) is slowed down so that
the rise time of the signal edge is greater than 35 µs, the
anomalous behavior will not occur. This can be realized by a
simple RC circuit connected to the PRUP pin, where R = 4.7 kΩ
and C = 1.5 nF. This circuit is shown in Figure 25.
FROM PRUP
CONTROL SIGNAL
4.7k⍀
1.5nF
AD607
PRUP
Figure 25. Proper Configuration of AD607 PRUP Signal
All designs incorporating the AD607 should include this circuitry.
Note that connecting the PRUP pin to the supply voltage will
not eliminate the problem, since the supply voltage may have a
rise time faster than 35 µs. With this configuration, the 4.7 kΩ
series R and 1.5 nF shunt C should be placed between the
supply and the PRUP pin as shown in Figure 25.
AD607 EVALUATION BOARD
The AD607 evaluation board (Figures 26 and 27) consists of an
AD607, ground plane, I/O connectors, and a 10.7 MHz band-
pass filter. The RF and LO ports are terminated in 50 Ω to
provide a broadband match to external signal generators to
allow a choice of RF and LO input frequencies. The IF filter is
at 10.7 MHz and has 330 Ω input and output terminations; the
board is laid out to allow the user to substitute other filters for
other IFs.
The board provides SMA connectors for the RF and LO port
inputs, the demodulated I and Q outputs, the manual gain con-
trol (MGC) input, the PLL input, and the power-up input. In
addition, the IF output is also available at an SMA connector;
this may be connected to the PLL input for carrier recovery to
realize synchronous AM and FM detection via the I and Q
demodulators, respectively. Table III lists the AD607 Evalua-
tion Board’s I/O Connectors and their functions.
REV. C
–19–
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