LM324, LM324A, LM224, LM2902, LM2902V, NCV2902
50 k
R1
5.0 k
V
CC
V
CC
R2
−
LM324
+
1/4
10 k
V
ref
V
O
V
ref
=
R1
1+
R2
1
V
2
CC
R
−
V
CC
1/4
MC1403
LM324
+
V
O
1
f
o
= 2
p
RC
C
For: f
o
= 1.0 kHz
R = 16 kW
C = 0.01
mF
2.5 V
R
C
V
O
= 2.5 V
Figure 11. Voltage Reference
Figure 12. Wien Bridge Oscillator
e
1
+
LM324
−
a R1
1/4
1
CR
R2
R
V
OH
R1
−
V
ref
1/4
Hysteresis
+
LM324
−
1/4
V
O
V
O
R1
LM324
+
1
CR
R
e
o
V
in
V
OL
b R1
−
e
2
LM324
+
1/4
V
inL
V
ref
V
inH
V
inL
=
V
inH
=
H=
R1
(V − V ) + V
ref
R1 + R2
OL ref
R1
(V
OH
− V
ref
) + V
ref
R1 + R2
R1
(V
OH
− V
OL
)
R1 + R2
e
o
= C (1 + a + b) (e
2
− e
1
)
Figure 13. High Impedance Differential Amplifier
Figure 14. Comparator with Hysteresis
R
R
V
in
C1
R2
−
C
R
−
LM324
+
Vref
Bandpass
Output
R2
R1
−
LM324
+
V
ref
Where:
Where:
1/4
1/4
100 k
C
100 k
−
LM324
+
R3
V
ref
1/4
1
f
o
=2
p
RC
R1 = QR
R1
R2 =
T
BP
R3 = T
N R2
C1 = 10C
For:
For:
For:
For:
f
o
= 1.0 kHz
Q = 10
T
BP
= 1
T
N
= 1
R
C
R1
R2
R3
= 160 kW
= 0.001
mF
= 1.6 MW
= 1.6 MW
= 1.6 MW
V
ref
=
1
V
2
CC
LM324
+
1/4
V
ref
C1
Notch Output
T
BP
= Center Frequency Gain
T
N
= Passband Notch Gain
Figure 15. Bi−Quad Filter
http://onsemi.com
8