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MIC7300 Datasheet, PDF (9/12 Pages) Micrel Semiconductor – High-Output Drive Rail-to-Rail Op Amp Preliminary Information | |||
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MIC7300
the phase lag caused by feedback resistor RFB and input
capacitance CIN. The value of CFB is determined by first
estimating CIN and then applying the following formula:
RIN à CIN ⤠RFB à CFB
CFB
RFB
RIN
VIN
CIN
VOUT
Figure 2. Cancelling Feedback Phase Lag
Since a significant percentage of CIN may be caused by board
layout, it is important to note that the correct value of CFB may
change when changing from a breadboard to the final circuit
layout.
Typical Circuits
Some single-supply, rail-to-rail applications for which the
MIC7300 is well suited are shown in the circuit diagrams of
Figures 3 through 7.
V+
2.2V to 10V
VIN
3
0V to V +
AV
4
5 MIC7300
1
2
VOUT
0V to V+
R2
R1 910k
100k
Figure 3a. Noninverting Amplifier
1V0+0
AV
= 1+
R2
R1
â
10
0
0
VIN (V)
100
Figure 3b. Noninverting Amplifier Behavior
V+
2.2V to 10V
VIN
3
0V to V+
4
5 MIC7300
1
2
VOUT
0V to V+
VOUT = VIN
Figure 4. Voltage Follower/Buffer
Micrel
VS
0.5V to Q1 VCEO(sus)
V+
2.2V to 10V
VOUT
0V to V+
VIN
3
0V to 2V
5 MIC7300
IOUT
1
4
2
{ Q1
2N3904
VCEO = 40V
IC(max) = 200mA
RS
Change Q1 and RS
for higher current
10â¦
1â2W
and/or different gain.
IOUT
=
VIN
RS
= 100mA/V
as
shown
Figure 5. Voltage-Controlled Current Sink
C1
0.001µF
R4
100k
V+
4
5 MIC7300
1
3
2
VOUT
V+
0V
R2
V+
100k
R4
R3 100k
100k
Figure 6. Square Wave Oscillator
CIN R1
33k
R2
330k
V+
4
5 MIC7300
1
COUT VOUT
3
2
0V
RL
R3
V+
330k
C1
1µF
R4
330k
AV
=
â R2
R1
=
330k
33k
=
â10
Figure 7. AC-Coupled Inverting Amplifier
November 1999
9
MIC7300
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