AD8307ARZ Analog Devices Inc, AD8307ARZ Datasheet - Page 14
AD8307ARZ
Manufacturer Part Number
AD8307ARZ
Description
IC LOGARITHMIC AMP 92DB 8-SOIC
Manufacturer
Analog Devices Inc
Type
Logarithmic Amplifierr
Datasheet
1.AD8307ANZ.pdf
(24 pages)
Specifications of AD8307ARZ
Applications
Receiver Signal Strength Indication (RSSI)
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
No. Of Amplifiers
1
Dynamic Range, Decades
4.6
Scale Factor V / Decade
0.5
Response Time
500ns
Supply Voltage Range
2.7V To 5.5V
Supply Current
8mA
Input Offset Voltage
500µV
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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AD8307
INTERFACES
The AD8307 comprises six main amplifier/limiter stages, each
having a gain of 14.3 dB and small signal bandwidth of 900 MHz;
the overall gain is 86 dB with a −3 dB bandwidth of 500 MHz.
These six cells and their associated g
handle the lower two-thirds of the dynamic range. Three top-
end detectors, placed at 14.3 dB taps on a passive attenuator,
handle the upper third of the 90 dB range. Biasing for these cells
is provided by two references: one determines their gain and the
other is a band gap circuit that determines the logarithmic slope
and stabilizes it against supply and temperature variations. The
AD8307 can be enabled or disabled by a CMOS-compatible level
at ENB (Pin 6). The first amplifier stage provides a low voltage
noise spectral density (1.5 nV/√Hz).
The differential current-mode outputs of the nine detectors are
summed and then converted to single-sided form in the output
stage, nominally scaled 2 μA/dB. The logarithmic output voltage
is developed by applying this current to an on-chip 12.5 kΩ
resistor, resulting in a logarithmic slope of 25 mV/dB (that is,
500 mV/decade) at Pin OUT. This voltage is not buffered, allowing
the use of a variety of special output interfaces, including the
addition of postdemodulation filtering. The last detector stage
includes a modification to temperature stabilize the log intercept,
which is accurately positioned to make optimal use of the full
output voltage range available. The intercept can be adjusted
using the INT pin, which adds or subtracts a small current to
the signal current.
The last gain stage also includes an offset sensing cell. This
generates a bipolarity output current when the main signal path
has an imbalance due to accumulated dc offsets. This current is
integrated by an on-chip capacitor, which can be increased in
value by an off-chip component at OFS. The resulting voltage is
used to null the offset at the output of the first stage. Because it
does not involve the signal input connections, whose ac-coupling
capacitors otherwise introduce a second pole in the feedback
path, the stability of the offset correction loop is assured.
The AD8307 is built on an advanced, dielectrically isolated,
complementary bipolar process. Most resistors are thin film
types having a low temperature coefficient of resistance (TCR)
and high linearity under large signal conditions. Their absolute
tolerance is typically within ±20%. Similarly, the capacitors have
COM
VPS
INM
INP
7
8
1
2
–INP
+INP
1.1kΩ
7.5mA
3
Figure 27. Main Features of the AD8307
NINE DETECTOR CELLS
COMPENSATION LOOP
AMPLIFIER STAGES
SPACED 14.3dB
SIX 14.3dB 900MHz
BAND GAP REFERENCE
INPUT-OFFSET
AND BIASING
AD8307
m
styled full-wave detectors
2
MIRROR
2µA
/dB
COM
12.5kΩ
6
5
4
3
ENB
INT
OUT
OFS
Rev. D | Page 14 of 24
a typical tolerance of ±15% and essentially zero temperature or
voltage sensitivity. Most interfaces have additional small junction
capacitances associated with them due to active devices or ESD
protection; these can be neither accurate nor stable. Component
numbering in each of these interface diagrams is local.
ENABLE INTERFACE
The chip enable interface is shown in Figure 28. The currents in
the diode-connected transistors control the turn-on and turn-
off states of the band gap reference and the bias generator, and
are a maximum of 100 μA when Pin 6 is taken to 5 V, under
worst-case conditions. Left unconnected, or at a voltage below
1 V, the AD8307 is disabled and consumes a sleep current of
under 50 μA; tied to the supply, or at a voltage above 2 V, it is
fully enabled. The internal bias circuitry is very fast, typically
<100 ns for either off or on. In practice, the latency period
before the log amp exhibits its full dynamic range is more likely
to be limited by factors relating to the use of ac coupling at the
input or the settling of the offset control loop.
INPUT INTERFACE
Figure 29 shows the essentials of the signal input interface.
C
differential input capacitance, mostly due to Q1 and Q2. In
most applications, both input pins are ac-coupled. The switches
close when ENB is asserted. When disabled, the inputs float,
bias current I
charged. If the log amp is disabled for long periods, small leakage
currents discharge these capacitors. If they are poorly matched,
charging currents at power-up can generate a transient input
voltage that can block the lower reaches of the dynamic range
until it has become much less than the signal.
P
and C
INM
INP
8
1
M
C
C
C
P
D
M
are the parasitic capacitances to ground; C
COM
COM
E
is shut off, and the coupling capacitors remain
4kΩ
ENB
2kΩ
Figure 29. Signal Input Interface
Figure 28. Enable Interface
6
40kΩ
2kΩ
COM
TYP 2.2V FOR
3V SUPPLY,
3.2V AT 5V
DETECTORS
TOP-END
2
AD8307
TO BIAS
STAGES
COM
2
S
S
6kΩ
6kΩ
~3kΩ
Q1
125Ω
Q2
I
2.4mA
E
D
125Ω
is the
7
VPS
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