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參數資料
型號: AD8304-EVAL
廠商: Analog Devices, Inc.
英文描述: 160 dB Range (100 pA -10 mA) Logarithmic Converter
中文描述: 160分貝范圍(100功率放大器-10毫安)對數轉換器
文件頁數: 15/20頁
文件大?。?/td> 4286K
代理商: AD8304-EVAL
REV. A
AD8304
–15–
Summing Node at Ground and Voltage Inputs
A negative supply may be used to reposition the input node at
ground potential. A voltage as small as
0.5 V is sufficient. Figure13
shows the use of this feature. An input current of up to 10 mA is
supported.
This connection mode will be useful in cases where the source is a
positive voltage V
SIG
referenced to ground, rather than for use with
photodiodes, or other
perfect
current sources. R
IN
scales the
input current and should be chosen to optimally position the range
of I
PD
, or provide a very high input resistance, thus minimizing
the loading of the signal source. For example, assume a voltage
source that spans the four-decade range from 100 mV to 1 kV and
is desired to maximize R
IN
. When set to 1 G
, I
PD
spans the range
100 pA to 1 mA. Using a value of 10 M
, the same four decades
of input voltage would span the central current range of 10 nA
to 100 mA.
Smaller input voltages can be measured accurately when aided by
a small offset-nulling voltage applied to VSUM. The optional
network shown in Figure 13 provides more than
±
20 mV for
this purpose.
6
3
4
PDB
BIAS
VREF
10
2
12
VPDB
VSUM
INPT
VSUM
5
1
VNEG
~10k
ACOM
14
VPS2
PWDN
VPS1
VREF
7
VLOG
8
BFIN
9
BFNG
TEMPERATURE
COMPENSATION
5k
11
VOUT
0.5V
NC
13
V
P
NC = NO CONNECT
RB
RA
V
OUT
RIN
V
SIG
1k
10k
V
P
V
N
V
LOW
I
PD
AD8304
Figure 13. Using a Negative Supply and Placing VSUM at
Ground Permits Voltage-Mode Inputs
The minimum voltage that can be accurately measured is then
limited only by the drift in the input offset of the AD8304. The
specifications show the maximum spread over the full tempera-
ture and supply range. Over a limited temperature range, and with
a regulated supply, the offset drift will be lower; in this situation,
processing of inputs down to 5 mV is practicable.
The input system of the AD8304 is quasi-differential, so VSUM
can be placed at an arbitrary reference level V
LOW
, over a wide
range, and used as the
signal LO
of the source. For example,
using V
P
= 5 V and V
N
=
3 V, V
LOW
can be any voltage within
a
±
2.5 V range.
Providing Negative Outputs and Rescaling
As noted, the AD8304 allows the buffer to drive a load to negative
voltages with respect to ACOM, the analog common pin, which
is grounded. A negative supply capable of supporting the input
current I
PD
must be used, the fraction of quiescent bias that flows
out of the VNEG Pin, and the load current at VLOG. For the
example shown in Figure 14, this totals less than 20 mA when
driving a 1 k
load as far as
4 V.
The use of a much larger value for the intercept may be useful in
certain situations. In this example, it has been moved up four
decades, from the default value of 100 pA to the center of the full
eight-decade range at 1 mA. Using a voltage input as described
above, this corresponds to an altered voltage-mode intercept, V
Z
,
which would be 1 V for R
IN
= 1 M
. To take full advantage of the
larger output swing, the gain of the buffer has been increased to
4.53, resulting in a scaling of 900 mV/decade and a full-scale
output of
±
3.6 V.
6
3
4
PDB
BIAS
VREF
10
2
12
VPDB
VSUM
INPT
VSUM
5
1
VNEG
~10k
ACOM
14
VPS2
PWDN
VPS1
VREF
7
VLOG
8
BFIN
9
BFNG
TEMPERATURE
COMPENSATION
5k
11
VOUT
0.5V
NC
13
V
P
NC = NO CONNECT
RB
22.6k
RA
13.3k
V
OUT
RIN
V
SIG
1k
10k
V
P
V
N
V
LOW
I
PD
RL
1k
RC
12.4k
AD8304
Figure 14. Using a Negative Supply to Allow the
Output to Swing Below Ground
Inverting the Slope
The buffer is essentially an uncommitted op amp that can be used
to support the operation of the AD8304 in a variety of ways. It
can be completely disconnected from the signal chain when not
needed. Figure 15 shows its use as an inverting amplifier; this
changes the polarity of the slope. The output can either be
repositioned to all positive values by applying a fraction of V
REF
to the BFIN Pin, or range negative when using a negative supply.
The full design for a practical application is left undefined in this
brief illustration, but a few cases will be discussed.
For example, suppose we need a slope of
30 mV/dB; this requires
the gain to be three. Since V
LOG
exhibits a source resistance of
5 k
, R
B
must be 15 k
. In cases where a small negative supply
is available, the output voltage can swing below ground, and the
BFIN Pin may be grounded. But a negative slope is still possible
when only a single supply is used; a positive offset, V
OFS
, is applied
to this pin, as indicated in Figure 15. In general, the resulting
output voltage can be expressed as:
V
R
k
V
I
I
V
OUT
B
Y
PD
Z
OFS
=
×
+
log
5
10
(16)
相關PDF資料
PDF描述
AD8304ARU 160 dB Range (100 pA -10 mA) Logarithmic Converter
AD8304ARU-REEL7 160 dB Range (100 pA -10 mA) Logarithmic Converter
AD8305 100 dB Range (10 nA to 1 mA) Logarithmic Converter
AD8305ACP 100 dB Range (10 nA to 1 mA) Logarithmic Converter
AD8305ACP-REEL7 100 dB Range (10 nA to 1 mA) Logarithmic Converter
相關代理商/技術參數
參數描述
AD8304-EVALZ 制造商:Analog Devices 功能描述:Evaluation Kit For 160 DB Range Logarithmic Converter 制造商:Analog Devices 功能描述:EVAL KIT FOR 160 DB RANGE (100 PA -10 MA) LOGARITHMIC CNVRTR - Bulk 制造商:Analog Devices 功能描述:EVAL LOGARITHMIC DECTECTOR AD8304
AD8304XRU 制造商:Analog Devices 功能描述:
AD8305 制造商:Analog Devices 功能描述:SP AMP LOG AMP SGL R-R O/P 6V/12V 16LFCSP EP - Bulk
AD8305_CSURF 制造商:Analog Devices 功能描述:
AD8305ACP 制造商:AD 制造商全稱:Analog Devices 功能描述:100 dB Range (10 nA to 1 mA) Logarithmic Converter
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