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LMC6035 Datasheet, PDF (15/29 Pages) National Semiconductor (TI) – Low Power 2.7V Single Supply CMOS Operational Amplifiers
LMC6035, LMC6035-Q1, LMC6036
www.ti.com
SNOS875G – JANUARY 2000 – REVISED APRIL 2013
Low-Pass Frequency Scaling Procedure
The actual component values represented in bold of Figure 47 were obtained with the following scaling
procedure:
1. First determine the frequency scaling factor (FSF) for the desired cutoff frequency. Choosing fc at 3kHz,
provides the following FSF computation:
– FSF = 2π x 3kHz (desired cutoff freq.) = 18.84 x 10 3
2. Then divide all of the normalized capacitor values by the FSF as follows: C1' = C(Normalized)/FSF C1' =
0.707/18.84 x 103 = 37.93 x 10−6 C2' = 1.414/18.84 x 103 = 75.05 x 10−6 (C1' and C2': prior to
impedance scaling)
3. Last, choose an impedance scaling factor (Z). This Z factor can be calculated from a standard value for C2.
Then Z can be used to determine the remaining component values as follows:
Z = C2'/C2(chosen) = 75.05 x 10 −6/6.8nF = 8.4k
C1 = C1'/Z = 37.93 x 10−6 /8.4k = 4.52nF
(Standard capacitor value chosen for C1 is 4.7nF )
R2(normalized) x Z = 1Ω x 8.4k = 8.4kΩ
(Standard value chosen for R1 and R2 is 8.45kΩ )
R1 = R1(normalized) x Z = 1Ω x 8.4k = 8.4kΩ
R2 =
High Pass Active Filter
The previous low-pass filter circuit of Figure 47 converts to a high-pass active filter per Figure 48.
Figure 48. 2 Pole, 300Hz, Sallen and Key, High-Pass Filter
High-Pass Frequency Scaling Procedure
Choose a standard capacitor value and scale the impedances in the circuit according to the desired cutoff
frequency (300Hz) as follows: C = C1 = C2 Z = 1 Farad/C(chosen) x 2π x (desired cutoff freq.)
=1
Farad/6.8nF x 2π x 300 Hz = 78.05k
R1 = Z x R1(normalized) = 78.05k x (1/0.707) = 110.4kΩ
(Standard value chosen for R1 is 110kΩ )
R2 = Z x R2(normalized) = 78.05k x (1/1.414) = 55.2kΩ
(Standard value chosen for R1 is 54.9kΩ )
Dual Amplifier Bandpass Filter
The dual amplifier bandpass (DABP) filter features the ability to independently adjust fc and Q. In most other
bandpass topologies, the fc and Q adjustments interact with each other. The DABP filter also offers both low
sensitivity to component values and high Qs. The following application of Figure 49, provides a 1kHz center
frequency and a Q of 100.
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