This project implements a second-order active low-pass filter using the LM741 operational amplifier. The filter is designed in KiCad and is suitable for basic signal conditioning and noise filtering applications.
The filter attenuates frequencies above a specified cutoff frequency (fc) while allowing lower-frequency signals to pass with minimal attenuation.
Here’s a preview of the designed PCB:
The filter circuit is built using a Sallen-Key topology and includes:
- Op-Amp: LM741 (U1)
- Resistors: R1, R2, R3, R4
- Capacitors: C1, C2
- Input/Output: J1, J2 (Coaxial connectors), J3 (Pin connector)
- Power Supply: ±10V
(Replace component values and results below with your actual design)
| Component | Value |
|---|---|
| R1 | 3.3 kΩ |
| R2 | 3.3 kΩ |
| R3, R4 | 10 kΩ |
| C1 | 10 nF |
| C2 | 10 nF |
| Cutoff | ~4.8 kHz |
📁 KiCad Project Files
- Schematic:
Second_Order_Low_Pass_Filter_Ac.kicad_sch - PDF Schematic:
Second_Order_Low_Pass_Filter_Ac.pdf - PCB Layout:
Second_Order_Low_Pass_Filter_Ac.kicad_pcb
📁 Fabrication Files
- Gerber Files: Ready for PCB manufacturing.
- Drill files and fabrication layers included.
📁 Bill of Materials (BOM)
- Can be generated from KiCad (
Tools->Generate BOM).
-
View Schematic and PCB
- Open
.kicad_schand.kicad_pcbfiles in KiCad (v9.0.2 or newer).
- Open
-
Simulate (Optional)
- Export netlist and simulate in a tool like LTspice or use KiCad’s simulator for basic analysis.
-
Fabricate PCB
- Use the included Gerber files to manufacture the PCB through a PCB fabrication service.
-
Assemble the Circuit
- Solder components as per the schematic and BOM.
- Power the board using ±10V.
-
Test the Filter
- Apply test signals and verify the cutoff frequency response using an oscilloscope or signal analyzer.
- The LM741 is a general-purpose op-amp with limited bandwidth. For high-frequency applications, consider alternatives like TL072 or LM358.
- This filter is ideal for audio applications or low-frequency signal conditioning tasks.
GPL 3.0
Special thanks to the KiCad community for making open-source hardware design accessible!