AD8364-EVAL-500 Analog Devices, AD8364-EVAL-500 Datasheet - Page 34
AD8364-EVAL-500
Manufacturer Part Number
AD8364-EVAL-500
Description
LF to 2.7GHz, Dual 60dB TruPwr™ Detector; Package: EVALUATION BOARDS; No of Pins: -; Temperature Range: Commercial
Manufacturer
Analog Devices
Datasheet
1.AD8364-EVAL-500.pdf
(48 pages)
AD8364
ALTERING THE SLOPE
None of the changes to operating conditions discussed so far
affect the logarithmic slope, V
readily be altered by controlling the fraction of OUT[A, B] that
is fed back to the setpoint interface at the VST[A, B] pin. When
the full signal from OUT[A, B] is applied to VST[A, B], the
slope assumes its nominal value of 50 mV/dB. It can be
increased by including a voltage divider between these pins, as
shown in Figure 73. Moderately low resistance values should be
used to minimize scaling errors due to the approximately 70 kΩ
input resistance at the VST[A, B] pin. Keep in mind that this
resistor string also loads the output, and it eventually reduces
the load-driving capabilities if very low values are used.
Equation 17 can be used to calculate the resistor values.
where:
S
R2' is the value of R2 in parallel with 70 kΩ.
For example, using R1 = 1.65 kΩ and R2 = 1.69 kΩ (R2' =
1.649 kΩ), the nominal slope is increased to 100 mV/dB. This
choice of scaling is useful when the output is applied to a digital
voltmeter because the displayed number directly reads as a
decibel quantity with only a decimal point shift.
Operating at a high slope is useful when it is desired to measure
a particular section of the input range in greater detail. A
measurement range of 60 dB would correspond to a 6 V change
in VOUT at this slope, exceeding the capacity of the AD8364’s
output stage when operating on a 5 V supply. This requires that
the intercept is repositioned to place the desired input range
section within a window corresponding to an output range of
0.1 V ≤ VOUT ≤ 4.8 V, a 47 dB range.
Using the arrangement shown in Figure 74, an output of 0.4 V
corresponds to the lower end of the desired range, and an
output of 3.5 V corresponds to the upper limit with 3 dB of
margin at each end of the range, nominally −32 dBm to −1 dBm
with the intercept at −35.6 dBm. Note that R2 is connected to
VREF rather than ground. R3 is needed to ensure that the
AD8364’s reference buffer is correctly loaded.
When the slope is raised by some factor, the loop capacitor,
CLP[A, B], should be raised by the same factor to ensure
stability and to preserve a chosen averaging time. The slope can
be lowered by placing a voltage divider after the output pin,
following standard practice.
D
is the desired slope, expressed in mV/dB.
R1 = R2' (S
D
/50 − 1)
SLOPE
, in Equation 7. The slope can
(17)
Rev. 0 | Page 34 of 48
PWDN
COMR
PWDN
COMR
VPSA
VPSB
VPSA
VPSB
INHA
INHB
INHA
INHB
Figure 74. Scheme Providing 100 mV/dB Slope for Operation over a 3 mV to
INLA
INLB
INLA
INLB
25
26
27
28
29
30
31
32
25
26
27
28
29
30
31
32
24
CHANNEL A
CHANNEL B
24
CHANNEL A
CHANNEL B
1
1
TEMP
TEMP
TruPwr™
TruPwr™
Figure 73. External Network to Raise Slope
TruPwr™
TruPwr™
23
23
2
OUTB
OUTA
2
OUTA
OUTB
BIAS
BIAS
22
22
3
3
300 mV Input Range
I
I
I
I
VGA
CONTROL
TGT
TGT
I
I
I
I
VGA
CONTROL
SIG
SIG
TGT
TGT
SIG
SIG
21
21
4
4
VGA
CONTROL
2
2
VGA
CONTROL
2
2
2
2
2
2
20
5
20
5
19
6
19
6
18
7
18
7
17
8
17
8
16
15
14
13
12
11
10
9
16
15
14
13
12
11
10
9
VSTA
OUTA
FBKA
OUTP
OUTN
FBKB
OUTB
VSTB
VSTA
OUTA
FBKA
OUTP
OUTN
FBKB
OUTB
VSTB
R1
4.02kΩ
R2
4.32kΩ
R3
2kΩ
R1
R2
V
V
OUT
OUT
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