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OPA4684 Datasheet, PDF (15/33 Pages) Burr-Brown (TI) – Quad, Low-Power, Current-Feedback OPERATIONAL AMPLIFIER | |||
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mon-mode voltage, VCM, is cut in half and applied to the
noninverting input of the 2nd stage. The signal path in this
stage sees a gain of â1 while this (1/2 ⢠VCM) voltage sees a
gain of +2. The output of this 2nd stage is then the original
common-mode voltage plus the inverted signal from the
output of the first stage. The 2nd stage output appears
directly at the output of the noninverting final stage. The
inverting node of the inverting output stage is also biased to
the common-mode voltage, equal to the common-mode
voltage appearing at the output of the 2nd stage, creating no
current flow and placing the desired VCM at the output of this
stage as well.
LOW-POWER, DIFFERENTIAL I/O, 4th-ORDER ACTIVE FILTER
The OPA4684 can give a very capable gain block for low-
power active filters. The quad design lends itself very well to
differential active filters. Where the filter topology is looking
for a simple gain function to implement the filter, the
noninverting configuration is preferred to isolate the filter
elements from the gain elements in the design. Figure 9
shows an example of a very low-power, 10MHz, 4th-order
Butterworth, low-pass Sallen-Key filter. Often, these filters
are designed at an amplifier gain of 1 to minimize amplifier
bandwidth interaction with the desired filter shape. Since the
OPA4684 shows minimal bandwidth change with gain, this
feature would not be a constraint in this design. The example
of Figure 9 designs the filter for a differential gain of 4 in each
differential stage. This DC-coupled design gives a signal gain
of 16V/V in the passband with a fâ3dB at 10MHz. The design
places the higher Q stage first to allow the lower Q 2nd stage
to roll off the peaked noise of the first stage. The resistor
values have been adjusted slightly to account for the ampli-
fier group delay.
+5V
VI
1/4
RI OPA4684
0.1µF
1kâ¦
VCM
2
1/4
1kâ¦
OPA4684
VCM
800â¦
1/4
OPA4684
800â¦
800â¦
RG
800â¦
800â¦
50â¦
1/4
OPA4684
800â¦
â5V
FIGURE 8. High Gain, DC-Coupled, Single to Differential Conversion.
+VI
(1
+
800â¦
RG
)
VCM
âVI
(1
+
800â¦
RG
)
66.5â¦
100pF
249â¦
100pF
1/4
OPA4684
800â¦
49.9â¦
392â¦
100pF
+5V
100pF
1/4
OPA4684
800â¦
VO/VI = 16V/V
fâ3dB = 10MHz
PD = 68mW
VI
534â¦
800â¦
534â¦
VO
800â¦
66.5â¦
249â¦
100pF
1/4
OPA4684
100pF
49.9â¦
392â¦
100pF
1/4
OPA4684
100pF
â5V
GD = 4, WO = 2Ï 10MHz, Q = 1.31
GD = 4, WO = 2Ï 10MHz, Q = 0.54
FIGURE 9. Low-Power, Differential I/O, 4th-Order Butterworth Active Filter.
OPA4684
15
SBOS240G
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