Audio-Spectrum-Analyzer.pdf

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Audio Spectrum Analyzer
Audio Spectrum Analyzer
Written By: Alex Hand
TOOLS:
Wire cutter/stripper (1)
PARTS:
Stereo Cable (2)
Stereo jack (2)
Screw Terminal (2)
LM386 audio op-amp (2)
LM324 OPAMP (7)
2N4401 NPN Transistor (3)
LED, Red (3)
LED, Yellow (9)
LED, Green (13)
1/4W 390k ohm resistor (3)
1/4W 270k ohm resistor (3)
1/4W 180k ohm resistor (1)
1/4W 56k ohm resistor (3)
1/4W 22k ohm resistor (3)
Resistor, 10kΩ, 1/4W (24)
1/4W 5.6k ohm resistor (1)
1/4W 4.7k ohm resistor (3)
1/4W 1.2k ohm resistor (1)
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Audio Spectrum Analyzer
1/4W 1k ohm resistor (3)
1/4W 560 ohm resistor (1)
1/4W 470 ohm resistor (24)
1/4W 68 ohm resistor (1)
1/4W 10 ohm resistor (1)
100uF / 25v capacitor (electrolytic) (2)
10uF / 25v capacitor (electrolytic) (3)
1uF / 50v capacitor (electrolytic) (1)
.47uF / 50v capacitor (electrolytic) (3)
.22uF / 50v capacitor (electrolytic) (2)
.01uF / 250VAC (ceramic) (2)
100pF (ceramic) (3)
SUMMARY
As complicated as I thought this would be, this circuit is using the basic fundamentals of
electronics and algebra. The only hard part is perfecting it and expanding it.
Click here to see the finished project.
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Audio Spectrum Analyzer
Step 1 — Create an amplifier
The first step of this circuit is to build a 200dB stereo amplifier. (It does not have to be
stereo but it is recommended. This does not replace an audio mixer.) This also does not
need to be soldered. I only did so because I would use this over and over again. So if you
do plan to use it often, it is a good idea to make it permanent.
This step requires: LM386 (2/2), Green LED (1/13), Stereo Jack (2/2), Screw Terminals
(2/2), .22uF capacitor (2/2), 10uF capacitor (2/3), 100uF capacitor (2/2), 470 ohm resistor
(3/24), 4.7k ohm resistor (2/3).
No schematic for this part of the circuit can be given (sorry!) because my design software
(LTspice) does not have the LM386 listed. (Will not work without an amplifier.) If you
cannot find a schematic you will have to rely on my horrible descriptive talents in hopes of
making one. To make a stereo amplifier, it is required that you make two mono-channel
amplifiers (makes sense, right?) and here's how:
Start by placing a LM386 anywhere on the board that has plenty of space. Connect pin 4
and pin 2 to V- and pin 6 to V+. Next, place a 10uF electrolytic capacitor between pin 1 and
pin 8. Make sure that the cathode (- side) of the capacitor goes to pin 8. (This gives us our
200db gain.)
Next place a 470Ω resistor between V- and pin 3. Then place a 4.7kΩ resistor between pin
3 and one of the AUDIO terminals. Which one doesn't really matter. Next, place a .22uF
capacitor between pins 5 and 6. And finally place a ≥100uF capacitor between pin 5 and
your output. And that should work as a mono-channel amp.
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Audio Spectrum Analyzer
Step 2 — Construct the filters
In this step we have three bandpass filters that take in the audio and we only use portions
of it to create a signal and send it to the next step.
This step requires: LM324 (1/7), 10pF capacitor (3/3), .01uF capacitor (2/2), 1uF capacitor
(1/1), 10uF capacitor (1/3), 10Ω resistor (1/1), 69Ω resistor (1/1), 560Ω resistor (1/1),
1.2kΩ resistor (1/1) 4.7kΩ resistor (1/3), 5.6kΩ resistor (1/1), 22kΩ resistor (3/3), 180kΩ
resistor (1/1), 390kΩ resistor (3/3).
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Audio Spectrum Analyzer
Step 3 — Create the display
NOTE! This part of the circuit CAN be replaced by the LM3916 and the LM3916 ONLY!
With that in mind, the final step is creating the display. This takes the audio and amplifies
it a little more and then displays it as a bar-graph. You may need to use a wire
cutter/stripper.
This step requires: LM324 (6/7), 2N4401 NPN transistor (3/3), .47uF capacitor (3/3),
Green LEDs (12/13), Yellow LEDs (9/9), Red LEDs (3/3) 470Ω resistor (24/24), 1kΩ
resistor (3/3), 10kΩ resistor (24/24), 56kΩ resistor (3/3), 270kΩ resistor (3/3).
The schematic given is for only 1/3 of the display. It will need to be made three times.
Also, this circuit was designed to run on 5V. Increasing the voltage would require you to
change things around a bit. Use only 5V to get the same end results I have gotten.
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