• Skip to main content
  • Skip to primary sidebar

Homemade Circuit Projects

Need circuit help? Post them in the comments! I've answered over 50,000!

Blog | Categories | About | Hire Me | Contact | Calculators-online
You are here: Home / Audio and Amplifier Projects / 10 Band Graphic Equalizer Circuit Diagram

10 Band Graphic Equalizer Circuit Diagram

Last Updated on May 15, 2026 by Swagatam 131 Comments

The proposed 10 band graphic equalizer circuit can be used in conjunction with any existing audio amplifier system to get an enhanced 10 stage audio processing, and customized tone control.

Table of Contents
  • The Circuit Concept
    • How the 10 band graphic equalizer circuit functions
    • Using Capacitors as Tuned Inductors
      • Circuit Diagram
    • LM324 IC Pinout Details
      • Parts List
      • Response Curve for the above 10 band graphic equalizer design
    • Simplified Version
  • 5 Band Active Equalizer Circuit
    • Parts List
  • 5 Band Passive Equalizer Circuit
    • Parametric Equalizer Circuit for Enhanced Effect

The circuit can be easily converted to a 5 band graphic equalizer by simply eliminating 5 stages from the shown design

The Circuit Concept

A graphic equalizer is a type of complex tone control circuit which can be applied to smooth out or enhance the frequency response of any hi-fi audio amplifier, or in a guitar effects unit. To be precise, the unit can prove effective in virtually any form of audio application.

The unit is quite simple to use. All one has to do is feed the TV or PC audio input to this circuit and hook the output with the existing home theater amplifier.

Next, it would be just a matter of adjusting the given 10 band controls and enjoying the vastly improved sound quality.

You would be able to tailor the sound as per your preferred tastes.As an example, the midrange controls of the equalizer can be adjusted to highlight dialogue or in order to reduce the harshness over a particular range of voice audio.

Or perhaps you can roll off the high pitched even to further extents in case you wished, or simply heightened the bas boost to your liking.

Typically the controls would be able to provide upto 10dB of boost or cut at nominal center frequencies of 150Hz, 500Hz, 1kHz, 2kHz, 5kHz, 7kHz, 10kHz, 13kHz, 15kHz, 18kHz.

The circuit also includes a fixed 10kHz low pass filter stage for cancelling out unwanted noise such as hiss or other high frequencies disturbances.

How the 10 band graphic equalizer circuit functions

Referring to the given circuit diagram we can see that the associated opamps form the main active component responsible for the required optimizations.

You will notice that all the 10 stages are identical, it's the difference in the values of the incuded capacitors and the pot which effectively varies the processing leves across the various stages.

For analyzing the operation we may consider any one of the opamp stages since all of them are identical.

Here the opamps act as "gyrators" which refers to an opamp circuit which effectively converts a capacitive response to an inductance response.

Consider an AC voltage source Vi connected to the opamp stage. This pushes a current Ic via the capacitor (C1, C2, C3 etc), which constitutes a proportional voltage across the connected ground resistance (R11, R12, R13 etc).

This voltage across the ground resistance is conveyed at the ouput of the opamp.

Due to this the voltage across the feedback resistor (R1, R2, R3 etc) becomes equal to the difference between Vin and Vout which causes current to flow via the feedback resistor and back into the input voltage source!

A careful assessment of the phases of the above developed current would show that as Ic leads the voltage Vin (as it can expected for any capacitive circuit) the net input current that may be the vector sum of Ic and Io in fact trails the voltage Vi.

Using Capacitors as Tuned Inductors

Therefore this implies that in effect, the capacitor C has gotten transformed into a virtual inductor due to the actions of the opamp.

This transformed "inductance" may be expressed by the following equation:

L = R1xR2xC

where R1 = ground resistance, R2 = feedback resistance while C = capacitor at the non-inverting input of the op amp.
Here C would be in Farads and the resistances in Ohms.

The pots effectively vary the input current to the opamps which results in a change in the value of the above explained "inductance", which in turn results in the required music enhancement in the form of treble cuts or bass boosts.

Circuit Diagram

10 Band Graphic Equalizer Circuit Diagram

LM324 IC Pinout Details

LM324 IC Pinout Details
Please make sure to connect the pin#4 of the ICs with the (+) DC supply, and the pin#11 with the 0V of the power supply and the circuit 0V line

Parts List

  • All resistor are 1/4 watt 1%
  • R1----R10 = 1K
  • R11---R20 = 220k
  • R21 = 47K
  • R22 = 15K
  • R23, R27 = 1M
  • R24, R25 = 10K
  • R26 = 100 ohm
  • RV1----RV10 = 5K pot
  • RV11 = 250K pot
  • All pF and nF capacitors are metallized polyester 50V
  • C1 = 1.5uF
  • C2 = 820nF
  • C3 = 390nF
  • C4 = 220nF
  • C5 = 100nF
  • C6 = 47nF
  • C7 = 27nF
  • C8 = 12nF
  • C9 = 6.8nF
  • C10 = 3n3
  • C11 = 68nF
  • C12 = 33nF
  • C13 = 18nF
  • C14 = 8.2nF
  • C15 = 3.9nF
  • C16 = 2.2nF
  • C17 = 1nF
  • C18 = 560pF
  • C90 = 270pF
  • C20 = 150pF
  • C21, C22, C25 = 10uF/25V
  • C23, C24 = 150pF
  • Op amps = 4nos LM324

Response Curve for the above 10 band graphic equalizer design

Response Curve for the above 10 band graphic equalizer design

Simplified Version

The simplified version of the above explained graphic equalizer can be witnessed in the following image:

Simplified Graphic Equalizer Circuit Diagram

Parts List

RESISTORS all 1/4W, 5%
R1, R2 = 47k
R3, R4 = 18k
R5, R6 = 1M
R7 = 47k
R8, R9 =18k
R10, R11 = 1M
R12 = 47k
R13, R14 = 18k
R15, R16 = 1M
R17 = 47k
R18, R19 = 18k
R20, R21 = 1M
R22, R23 = 47k
R24, R25 = 4k7
POTENTIOMETERS
RV1 10k log slider pot
RV2, 3, 4, 5 … . 100k linear slider pot
CAPACITORS
C1 = 220n PPC
C2 = 470p PPC
C3 = 47p ceramic
C4 = 2n2 PPC
C5 = 220p ceramic
C6 = 8n2 PPC
C7 = 820p ceramic
C8 = 33n PPC
C9 = 3n3 PPC
C10, C11 = 100µ 25V electrolytic
SEMICONDUCTORS
IC1-1C6 = 741 op amp
D1 = IN914 or 1N4148
MISCELLANEOUS
SW1 spst miniature toggle switch
SKI, 2 mono jack sockets
B1, 2 9V 216 batteries

5 Band Active Equalizer Circuit

According to the circuit architecture shown below, the input signal is capacitively linked to the non-inverting input of IC1a, which is used to buffer the signal since at this point a low impedance is needed to reduce noise pickup on the potentiometer wires.

5 Band Active Equalizer Circuit Diagram
7812, 7912 IC dual power supply circuit

For now, let's ignore the potentiometers. The signal is sent through R2 to IC2c, which acts as a unity-gain buffer DC-coupled to the output.

If every potentiometer is set to its middle position, any loading on the sliders will pot down the input signal to the non-inverting input of IC2c, while also pot down the negative feedback and producing a gain that compensates for the potting -down of the input signal.

Consequently, we still have unity gain at all frequencies in this situation.

The system displays a net gain at 206 Hz if the slider RV2 is pushed to the inverting input end of its range.

This is because the effect of potting down the negative feedback is, at resonance, considerably stronger than the potting -down of the input signal.

The input signal is potted down but the negative feedback is not, therefore there is a decrease in the frequency response at 206 Hz when the slider turned to the non-inverting input end of its journey.

Each and every potentiometer follows the same logic.

In order to reduce the impacts of crosstalk through the power supply, local decoupling is offered on the board.

Parts List

5 Band Passive Equalizer Circuit

A very neat and reasonably efficient 5 band graphic equalizer circuit using only passive components can e built as shown in the following diagram:

5 band equalizer circuit Diagram

As can be seen in the figure above, the 5 band equalizer has five potentiometers for controlling the tone of the input music signal, while the sixth potentiometer is positioned for controlling the volume of the sound output.

Basically, the shown stages are simple RC filters, which narrow or broaden the frequency passage of the input signal, so that only a certain band of frequency is allowed to pass, depending on the adjustment of the relevant pots.

The equalized frequency bands are 60Hz, 240Hz, 1KHz, 4KHz and 16KHz, from left towards right. Lastly followed by the volume control pot control.

Since the design does not use active components this equalizer is able to operate without any supply input. Please note that if this 5 band equalizer is implemented for a stereo or multichannel system, it may become necessary to set up an equalizer in the identical manner for each of the channels.

Parametric Equalizer Circuit for Enhanced Effect

If you are not impressed with the above 10 band graphic equalizer results, then the following simple parametric equalizer circuit will surely make you feel a lot happier.

Parametric Equalizer Circuit Diagram

Audio input is sent from left side at the input of C1, while the enhanced equalizer effect is acquired from the right side R4 end which must be connected to the power amplifier.

The dotted lines indicate that the relevant potentiometers must be dual type pots, and must move concurrently.

The effect from such parametric equalizers or filter circuit is said to be similar to the effects that we normally get in concert halls, and auditoriums.

You'll also like:

  • 1002Bwatt2Bmosfet2Bamplifier2BcircuitDIY 100 Watt MOSFET Amplifier Circuit with PCB
  • arduino2BsirenArduino Musical Tune Generator Circuit
  • amp fuse protectorPrevent Amplifier Fuse from Blowing During Power Switch ON
  • DUAL TONE SIREN CIRCUITHow to Make a Dual Tone Siren Circuit

Filed Under: Audio and Amplifier Projects Tagged With: Band, Equalizer, Graphic

About Swagatam

I am an electronics engineer and doing practical hands-on work from more than 15 years now. Building real circuits, testing them and also making PCB layouts by myself. I really love doing all these things like inventing something new, designing electronics and also helping other people like hobby guys who want to make their own cool circuits at home.

And that is the main reason why I started this website homemade-circuits.com, to share different types of circuit ideas..

If you are having any kind of doubt or question related to circuits then just write down your question in the comment box below, I am like always checking, so I guarantee I will reply you for sure!



Previous Post: « Low Power MOSFET 200mA, 60 Volts Datasheet
Next Post: 10 Simple LED Chaser Circuit Diagrams Explained [Knight Rider, Scanner, Reverse-Forward, Cascaded] »

Reader Interactions

Questions & Answers

Total Posts: 131 (Older Threads Archive)
Newest Oldest
Doug Bezaire
October 1, 2025 • 9 months ago #187116

am looking at building an audio amplifier that the user can adjust as needed (senior citizen).
Watching tv and deciphering the audio sometimes when actors are talking.
Looking at the 5 or 10 band equalizer circuit or the Parametric Equalizer Circuit for Enhanced Effect.
For a low noise op amp looking at the TL074 SINGLE SUPPLY.
a condenser mic and 30ohm Koss headphones,

Reply
Douglas Bezaire
October 2, 2025 • 9 months ago #187195

what happened to the enhanced bandpass circuit?

Reply
SwagatamAdmin
October 3, 2025 • 9 months ago #187274

Sorry, I did not understand your question?
Here’s one example of a bandpass circuit:
https://www.homemade-circuits.com/build-this-subwoofer-amplifier-circuit-mini-ground-shaker/

Reply
Doug Bezaire
October 2, 2025 • 9 months ago #187186

in your ENHANCED AMPLIFIER drawing the resistors are hard to read (R12, R14, R15, R17)
Contemplating using the LM4862 and/or MAX4466

Reply
SwagatamAdmin
October 3, 2025 • 9 months ago #187275

Here’s the enlarged version of the diagram, please let me know if it is still not clear:
enhanced equaliser system compressed 1200&

Reply
SwagatamAdmin
October 2, 2025 • 9 months ago #187147

Sure, I think the following option would work better than a TL074:
https://www.homemade-circuits.com/lm4862-amplifier-circuit-better-lm386-alternative/

For MIC integration you can consider the MAX4466 module option:
https://www.homemade-circuits.com/explained-max4466-electret-microphone-amplifier-module-with-adjustable-gain/

Reply
David Coleman
March 6, 2024 • 2 years ago #149793

I dont understand why you say that a 10k pot is not posible to make the 10 band equalizer can you explain me? I see this is a voltage divider that controls the current that go through each stage

Reply
SwagatamAdmin
March 6, 2024 • 2 years ago #149801

If you use 10k, it will still work but may not produce the best results. All the parts are calculated ideally for generating optimal results, changing it can affect the audio response and quality.

Reply
Danut
March 2, 2025 • 1 year ago #168720

I experimented with a low noise tone control with 5k log potentiometers and the bass values ​​for the bass capacitors are 10uf and 1uf. The resistors in this case become 470ohm and 47ohm. We measure the noise in ohms at very small millivolt signals. High values ​​of 100k produce a lot of noise. Now it also depends on the schematic and where the tone control stage is located.

Reply
SwagatamAdmin
March 2, 2025 • 1 year ago #168724

Thanks for the feedback!

Reply
khan
January 26, 2024 • 2 years ago #148750

Regarding the last circuit diagram of “5-band Passive Equalizer Circuit”, the problem of using a volume equalization circuit composed of RC:
1. What is the test input voltage (mV)? V? Well?
2. What is the power requirement of the resistor in the picture?
3. What type of potentiometer is it?
4. Is the capacitor a polyester capacitor or a ceramic capacitor?
5. In this circuit, what formula is used to calculate the frequency value?
6. Are there any other precautions?

Reply
SwagatamAdmin
January 26, 2024 • 2 years ago #148751

For the last passive equalizer circuit:
1) Input voltage should be above 100mV.
2) All resistors can be 1/4 watt CFR.
3) Potentiometers are standard linear type.
4) Capacitors can be ceramic or polyester.
5) Formulas are all RC based, exact formula is not available.
6) No other precautions are required.

Reply
khan
January 26, 2024 • 2 years ago #148752

Thank you! Bro!
Looking forward to more new works from you!

Reply
SwagatamAdmin
January 26, 2024 • 2 years ago #148754

You are welcome Khan!

Reply
Elmer Arano
October 15, 2023 • 3 years ago #146208

For passive 5 band equalizer, what was the recommended type of the resistor and caps?

Reply
SwagatamAdmin
October 16, 2023 • 3 years ago #146225

The recommended type is MFR 1% for the resistors and metallized polyester for the capacitors.

Reply
Joey Lizotte
September 29, 2023 • 3 years ago #145536

How do you change the value of the frequencies? Like, having the EQ centered at 1.2kHz instead of 1kHz. Thanks!

Reply
Arthur M
June 25, 2023 • 3 years ago #143671

Good Day Swagatam!

I wish to apply to 10-band GE circuit to measure the frequency distribution of the sound of a church choir and several instruments as it actually sounds in the church hall. The idea is to feed the output of a microphone (Shure SM57) placed in the center of the church hall while the choir is singing as input to the GE. All bands will be initially set to the midpoints of their variable pots’ ranges. I have obtained 10 VU meters, which are physically ammeters with the meter face calibrated in deci-Bells. These will be connected in series with each of the 10 variable pots.

The display of each VU meter can then be used to measure the relative volume of each of the 10 frequency channels. If there is too much volume above midrange and not enough at lower frequencies, then the lower frequency instruments can have their volume increased. Since everyone’s ear is different, this device should provide an objective measure of the balance of frequencies in the hall.

Each VU has a resistance of 500 ohm and reaches 1 mA at full scale. Suppose however that in the circuit above, the currents at full range of the VRs range from 10 mA at RV1, to 50 mA at RV 10, all of which are beyond the limit of the VU meters. Then my measurements would actually alter the output I am trying to measure! So perhaps measuring current is not correct!

Q1: should I not measure the voltage across the RV instead of measuring the current?

Q2: where should I connect each VU meter? I say from the high input of IC 1/2 to the “pointer” setting of each RV1-10. Is this right?

The high input to IC 1/2 is common to the base of each of the RV1-10. The low input to capacitor C24 is common to the output of all RV1-10. Only the “pointer” of each RV will show a variation of voltages across each RV. If I connect from pointer to C24, then that VU meter will measure lowest voltage when the pointer setting is high. If I connect from the high output of IC 1/2 to the pointers, then when the level of an RV is increased, so will the voltage across each VU.

Please let me know if this is the right way to go about this project. I am a mechanical engineer and have worked with small breadboard IC 555 circuits before. I know how the selection of R and C values is key to setting the frequency limits of each band of EQ.

This is a great circuit and looks similar to my Kenwood GE-54 graphic equalizer with 2×10 bands.

Best regards,

Arthur

Reply
SwagatamAdmin
June 25, 2023 • 3 years ago #143672

Thank you Arthur,
Unfortunately, you cannot touch anything on the internal side of the circuit that can severely affect the working conditions of the opamps. Meaning the VU meters cannot be connected anywhere inside the circuit.
If your VU meter is a 1 mA ammeter then probably it can be connected at the input side in series with the capacitor C21.
If your VU meter is a voltmeter then probably it can be connected parallel to R27.
These are my views only, if you think I am wrong, please feel free to clarify it.

Reply
Arthur M
June 25, 2023 • 3 years ago #143674

Ahhhh, I see. Even a high impedance voltage measurement across the RVs would cause the OPAmps to perform otherwise than expected. And if we measure externally as you suggest, we only get the average frequency response, which our ears are perfectly capable of assessing.

So perhaps the 5-channel Passive Circuit can have voltages across each RV to be measured without distorting the signal? 5 bands would be better than just one! And it’s easier to build.

Reply
SwagatamAdmin
June 25, 2023 • 3 years ago #143677

Yes, opamps are very sensitive devices, so any external circuit coming in contact with their input pins can cause performance issues. However, if you have mA meter as the VU meter you can try connecting them in series with the center wiper leads of the RV1 pots, this shouldn’t hamper the opamp function in any manner and also fulfill the need, I guess.

Reply
Arthur
June 26, 2023 • 3 years ago #143693

Yes, that’s the approach I thought best after studying the circuit diagram for awhile. It will be a few weeks until I get something built. I can check back in once that is done. Thanks!

Reply
SwagatamAdmin
June 26, 2023 • 3 years ago #143696

Sure, no problem!

Reply
rosario
June 11, 2023 • 3 years ago #143339

Hi Engineer.
I wanted to make the equalizer of the first scheme. the criticality lies in the potentiometers. I found linear ones at an acceptable price, but only 10 kO. My question. Is it possible to replace? If possible, what modifications to the schema should be brought. Thank you

Reply
SwagatamAdmin
June 11, 2023 • 3 years ago #143346

Hi Rosario,

The circuit parts cannot modified for a 10K pot. For best results you must use 4k7 or 5K pots only. Another idea may be to add a 10K fixed resistor across the end terminals of your 10K pots so that they work like 4k7 pots.Or 10K resistors between the center and the outer terminals of the pot.

Reply
rosario
June 12, 2023 • 3 years ago #143353

Thank you

Reply
mchina
November 6, 2022 • 4 years ago #134482

Thanks sir for teaching
please Ineed aformula for calculating frequency in equalizer circuit (as 5band eq above)

Reply
SwagatamAdmin
November 6, 2022 • 4 years ago #134483

Hi mchina, unfortunately the frequency formula is not available with me, I have provided the inductance formula which allows a passage a specific range of frequencies and suppresses other ranges.

Reply
SHAHID KHAN
September 17, 2022 • 4 years ago #133304

Hi sir, I need gerber file for this equalizer project please help out.

Reply
SwagatamAdmin
September 17, 2022 • 4 years ago #133305

Hi Shahid, Sorry I do not have the gerber files for this circuit.

Reply
K K RAVICHANDREN
August 26, 2022 • 4 years ago #132676

Hello Sir i need a stereo 10 band equaliser circuit with pcb layout with good effect if any circuit pleace guide me
Ravichandren. K K

Reply
SwagatamAdmin
August 26, 2022 • 4 years ago #132684

Hello KK, the circuit presented in the above article will provide a very good equalizer effect. You can create two of these units to fulfill your stereo requirement. However, unfortunately I do not have a PCB layout for this design.

Reply
Abasifreke Essien
April 24, 2022 • 4 years ago #119511

Hello,
Am abasifreke essien, pls I need help, i wanan be train on circuit designing& circuit analyzing. Thanks.
Have gone through the knowledge &experience share in diz platform indeed is a wow.. Though most them in a short while I will understand…
Pls. Accept me!

Reply
SwagatamAdmin
April 25, 2022 • 4 years ago #119567

Hello, Abasifreke welcome to this blog, you can learn by posting comments, asking questions and by building and testing small circuits initially.

Reply
Gábor
April 11, 2022 • 4 years ago #118348

Hello,

I have found a very good circuit with transistor, what lot of producters like samsung are using.
And in there are capacitors also, but I think without any bad compliment what I found is better and requiers much more fewer element, and in this case is not as big on the plate.
If you are interested I can send to you and maybe you can help me to say the truth:).
Have a nice day!
Gábor

Reply
SwagatamAdmin
April 12, 2022 • 4 years ago #118382

Hi, thank you and I appreciate your offer to provide me the transistor regulator, however I already have many good transistorized regulator circuits in this blog, so it’s fine! No problem!

Reply
Gábor
April 11, 2022 • 4 years ago #118296

I can do the supply for the op amps with an other circuit. I have to use an inverter from what does 30V from auto accu. 12V and after this again regulated to DC. After I use a stabilized voltage tranzistor circuit with the difference that on the B I use a resistor and a capacitor not diode. As I recognised many of the company using this to reduce incomming noise and this also chilling the interferency between the op amps.
Am I thinking good Sir?
Thank you for answer!
Gábor

Reply
SwagatamAdmin
April 11, 2022 • 4 years ago #118308

If your power supply is regulated and has negative positive both supplies, then it is fine you can use it to power the op amp circuits.

Reply
Gábor
April 11, 2022 • 4 years ago #118322

Hey again!
Well, my question is: I want to supply this circuit from an auto accu. I have to use an inverter for more voltage, a so called stabilised voltage supply at the out what I can plan and implement.
This is just a thing. But, after the inverter I have to use again a AC/DC regulator cuz the opamp is functioning with nearly linear signal. Okay, he does have a tolerance to Frequency depends on producer and type. But I want to be sure this is why I want to implement a transistor circuit what is capable to filter ingoing noise and stabilises the interfequency and Voltage stability between the 5 opamp. <—huh this is my plan. Do I think it good? I recognise that your filter with the many of Capacitors also working on the +15..-15 circuit but I want to do otherwise.<— It is also a way what can be followed?
Thanks for answer, have a nice day. I

Reply
SwagatamAdmin
April 11, 2022 • 4 years ago #118342

Hello, yes you can implement a transistorized voltage regulator. You must also keep the capacitors which are shown in the circuit diagram for proper filtration. The capacitors are required otherwise there may be a chance of noise getting inside the op amp circuit.

Reply
Gábor
April 10, 2022 • 4 years ago #118271

Sorry, that I have got an other question!

Right from the Out is an other circuit. May it be that this is the voltage support for the opamps?
And I just figured out that when this is the voltage support then it may be that it can be do otherwise?
Because I have got other ideas to do the 15V voltage and the -15 voltage I mean summa 30V for the opamps function voltage support.
Thanks a lot!
Gábor

Reply
SwagatamAdmin
April 10, 2022 • 4 years ago #118275

Yes the other small circuit at the bottom right shows the supply details for the op amp supply pinouts. You can use voltage from 6V to 15V

Reply
Gábor
April 7, 2022 • 4 years ago #118137

Dear Sir!

What does it mean the circle with a line in it and a circle with line only on the two side around the circle?
I speak about the last circuit, the enchanted equaliser.
And where comes out the signal here in the same circuit? I mean it is okay that you use a Power equaliser, but were are the out signals? ON C9 Capacitor?
Thank you very much, Gabor

Reply
SwagatamAdmin
April 8, 2022 • 4 years ago #118152

Dear Gabor, please don not worry about the circle with line marking, it only shows a few connections, that you have to make externally. that’s all. Out is from the black arrow and the ground line.

Reply
Suresh Champhekar
October 30, 2021 • 5 years ago #103225

Is it possible to use small directional microphone as input to the equalizer and use it as a hearing aid?

Reply
SwagatamAdmin
October 30, 2021 • 5 years ago #103230

Yes that’s possible!

Reply
yiu william
April 23, 2021 • 5 years ago #88720

Hello sir i’m a student that study engineering electronic from french guiana (IUT de Kourou).
i’m on a firts year ! in my school every year we need to make a projet of our choice (i want to make an equalizer) the project will be presented on 11 juin.
on my researches i understood how to change frenquency depending of the values (resistor and capacitor) but still dont get it about the LM324. could you help ? and give more explanation in details !!!

Reply
SwagatamAdmin
April 24, 2021 • 5 years ago #88726

Hello Yiu, I do not have any further information about the op amp functioning except what is posted above….but you can search online for op amp gyrators and know more about them and how they are used in filter circuits.

Reply
yiu william
April 27, 2021 • 5 years ago #88804

Okay, but first of all, for the LM324 component, can we use it to make our 5-band equalizer? because I saw the diagram for the 5-band equalizer there is no LM324!
The 5 frequencies we want to define are:
60hz (low pass filter with an RC circuit)
160hz, 400hz, 1khz (band pass filter with an RLC circuit)
16khz, (high pass filter with an RL circuit).
from the above frequencies do you think we will need the LM324 or not at all?

Reply
SwagatamAdmin
April 27, 2021 • 5 years ago #88807

Passive filter will produce an low quality output with subdued effects, whereas the LM324 or any op amp based filter will give you clearer, and more effective Hi-Fi sound equalization and quality…

Reply
Michael post
March 30, 2021 • 5 years ago #88091

Sweet thanks, that should be a excellent place to start

Reply
Michael Post
March 28, 2021 • 5 years ago #88057

Hello there, I’m currently building a head unit for my truck using a Jetson Nano Tea5767 some solid state relays(for windows, locks, possibly a snow plow). I’ve been knee deep reading The Art of Electronics 2nd Edition. Trying to wrap my head around the math for a passive EQ. Your 5 band passive uses 50K pots and I have 10K sliders I’d like to design a 10 band passive, just curious how to calculate resistor value to capacitor for a given Hz. Then from there I’m going to adjust fade and balance at my pre-amplifier planning on using NE5532 a I2C multiplexer and I2C digital pots for balance, and fade.

Reply
SwagatamAdmin
March 29, 2021 • 5 years ago #88066

Hi, I do not have the calculations for passive filters, after some researching I could find the following article, which seems to have some in-depth information regarding the subject, you can check out the link here:

http://education.lenardaudio.com/en/06_x-over_2.html

Reply
nk
March 6, 2021 • 5 years ago #87596

Nice!! Building this in KiCad right now. Curious, what are the primary functions for blocks for IC1/1 and IC1/2? Looks like you’re doing some buffering/filtering?

Reply
SwagatamAdmin
March 6, 2021 • 5 years ago #87610

Yes, those are basically for preamplification and buffer together…

Reply
Azade
January 8, 2021 • 6 years ago #85974

thank you
What kind of capacitor is c1? I put the C1 capacitor electrolytic, with a capacity of 2.2 microfarads, is there a problem?
What is the circle on volume 250K?

Reply
SwagatamAdmin
January 8, 2021 • 6 years ago #85979

You can see the symbol, it shows an electrolytic cap. 2.2uF will also work…the circle is nothing, just a connecting point.

Reply
azade
January 8, 2021 • 6 years ago #85957

Hi . Has this circuit been tested in practice? I connected the circuit to the first six bands. But the output is very low and has noise.
I used MKT capacitor. Is this the reason for my problem?
Will the problem be solved if I assemble the circuit to the end?
I used wire to connect the volume. Is this a problem?
If I did not receive an answer from this circuit. I try the last circuit that is without power.
Finally, if you have any advice to improve the output, please

Reply
SwagatamAdmin
January 8, 2021 • 6 years ago #85964

It is 100% tested, for me worked extremely well. All types of capacitors will work for this project….nothing’s critical in the circuit, except the connections, which should be exactly as indicated..

Reply
wesky
November 11, 2020 • 6 years ago #84311

Hi,Swagatam,
About “5 Band Passive Equalizer Circuit”:
How to calculate the frequency? For these frequencies, I calculated based on the above components, and the value obtained is far from the nominal value.Please give a few examples this Circuit.thanks.

Reply
SwagatamAdmin
November 11, 2020 • 6 years ago #84318

Hi Wesky, which formula did you use, RC filter formula?

Reply
wesky
November 17, 2020 • 6 years ago #84523

Hi,
I’m used basic calculation circuit:”f=1/(2πRC)”,for example:(about “5 Band Passive Equalizer Circuit”-240Hz)22nf,22k,calculation value:329hz,for example:(about “5 Band Passive Equalizer Circuit”-60Hz),calculation?

Reply
SwagatamAdmin
November 17, 2020 • 6 years ago #84537

Hi, but the equalizer involves quite a few resistors and capacitors, so applying the above formula can be tricky, or may be the various RCs will have to be solved in steps.

Reply
riad nassar
October 19, 2020 • 6 years ago #83685

Hi and thanks so much for the circuit. I’m just wondering what is the wattage of the resistors with the passive eq? Are they all 1w like the 56 ohm one? also, what is the tolerance? I’m new to electronics so I guess I’m asking rather obvious stuff… Thanks again for the circuits, it’s brilliant!

Reply
SwagatamAdmin
October 19, 2020 • 6 years ago #83689

You are welcome, resistor tolerance indicate the maximum voltage and current it can withstand before getting hot and burning.

Whenever the wattage of a resistor is not given, you can assume it to be 1/4 watt 5% rated.

Reply
riad
October 19, 2020 • 6 years ago #83699

Perfect, thanks again 🙂

Reply
AntonyMan
September 7, 2020 • 6 years ago #82067

Ideally, based on “5 Band Passive Equalizer Circuit”, I would like to build a 5-6 band EQ which each have adjustable “Q” and adjustable band frequency. (I want to use it as EQ for guitar-Bass instrument)
1) Can I make an adjust somehow of the “Q” in the Circuit”? If yes, how?
2) Can I use variable frequency bands tuned by each separate band pot,
or
how to calculate new “default” bands? *instead of default 60, 240, 1k, 4k, 16kHz, maybe, for example, I need to use 60, 120, 300, 650, 1.5k Hz (How to calculate band Hz?)

Sorry for my English and
Thanks in advance.

Reply
SwagatamAdmin
September 8, 2020 • 6 years ago #82081

Not sure how Q factor can be controlled or calculated. The default bands could be calculated through the formula as explained in the article.

Reply
Hogan
September 3, 2020 • 6 years ago #81923

Hello! I’m wanting to mod my Boss GE-7, but I can’t figure out how to calculate what frequency will be affected. Then, I will be able to adjust what frequencies are being affected. Would you be able to look and tell me either what needs to be changed to obtain the frequencies below or give me an equation of some sort to get the frequency I’m looking for! Thanks.

100 -> 400
200 -> 800
400 -> 1.2k
800 -> 1.6k
1.6k -> 2k
3.2k -> 2.5k
6.4k -> 4k

Reply
SwagatamAdmin
September 3, 2020 • 6 years ago #81947

Hello, I have not yet used this device, so it can be difficult for me to solve your query.

Reply
Emrys Jones
August 26, 2020 • 6 years ago #81728

The LM324 is quite a high voltage chip. Can you suggest a 5v alternative?
Yes, 5v because that’s what comes out of USB, and that’s what fits in easily these days. I could use a step up to get 30v, but I would rather not.

Reply
SwagatamAdmin
August 27, 2020 • 6 years ago #81737

LM324 will work with 5 V also.

Reply
???? Avocado
August 18, 2020 • 6 years ago #81466

Do you know any formula to calculate the quality factor of the gyrators without measuring any parameters?

Reply
Dotty
August 19, 2020 • 6 years ago #81501

Sir, which simulator would you prefer; LTspice or Multisim?

Reply
SwagatamAdmin
August 19, 2020 • 6 years ago #81504

Both are good, depends which is better equipped for a given schematic.

Reply
Kenneth Fox
August 19, 2020 • 6 years ago #81510

Personally, I’ve found Circuit Lab to be better than either

Reply
SwagatamAdmin
August 18, 2020 • 6 years ago #81476

Sorry not sure about it at this moment, will need to research it.

Reply
???? Avocado
August 19, 2020 • 6 years ago #81500

No probs sir

Reply
Max
June 10, 2020 • 6 years ago #79334

Hello,
I know you posted the type of capacitors used, metalized polyester, 50VDC. This is probably a dumb question, can any non-polarized capacitor be used like ceramic or other film? Also do the capacitors need to be 50VDC or will any capacitor rated 50 or above work? (Just referring to the non-polarized capacitors.)

Thank you for taking the time to help

Reply
SwagatamAdmin
June 10, 2020 • 6 years ago #79347

Hi, yes they can be used as long as they are of standard quality and from good manufacturers. As a rule of thumb the capacitor voltage must be 2 times more than the supply voltage used for the circuit, higher value than this will only enhance the safety of the capacitor, and will have no effect in their normal working.

Reply
Binod Thakur
August 14, 2020 • 6 years ago #81338

Sir, how did you stimulate this? With LTspice?

Reply
Matthew Sullivan
March 3, 2020 • 6 years ago #77051

In the passive diagram, I do not see the standard ee symbol for the potentiometers. Whatever resistance are they;and, where do they go? Thank you.

Reply
Bob
February 12, 2020 • 6 years ago #76433

Does this circuit require power? I am assuming the 0V are actually grounds. Is the polarity of C22 in the diagram correct? And is c24 connected to the pots or should it also go to ground like c23? Thanks

Reply
SwagatamAdmin
February 12, 2020 • 6 years ago #76434

Yes it will require power to function. You will have to connect all the +Vcc pins of the IC LM324 to a +12VDC source. and all the (-) pins of the IC to the 0V line which is also the 0V line of the power supply. Rest everything can be exactly as shown in the diagram.

Reply
Niels Veul
February 4, 2020 • 6 years ago #75945

Hello Swagatam,

Could you please explain how you calculate the capacitor values?

Reply
SwagatamAdmin
February 5, 2020 • 6 years ago #75981

Hello Neils, the capacitor and Resistor calculation is given in the article.

Reply
Samarjyoti
January 11, 2020 • 7 years ago #74397

Where are the ICs in the 5band passive equalizer circuit diagram?
How can I convert the circuit into stereo?

Reply
SwagatamAdmin
January 11, 2020 • 7 years ago #74399

It is a passive design so no semiconductors are involved here! Make two identical stages for the two channels.

Reply
samarjyoti
January 11, 2020 • 7 years ago #74404

Please can you explain the process for stereo output?

Reply
SwagatamAdmin
January 12, 2020 • 7 years ago #74451

Make two identical units, join their grounds in common, join the right and the left input ends to the music inputs, and the join the outputs with the power amplifiers

Reply
Samarjyoti
January 12, 2020 • 7 years ago #74454

Does using passive equalizer will reduce my music volume level?

Reply
SwagatamAdmin
January 12, 2020 • 7 years ago #74465

You will have to use the equalizer between the source and the power amplifier, so volume will not affected….

Reply
Brahmaiah Lingam Mulugu
January 8, 2020 • 7 years ago #74156

If we have to graphic equalizers for stereo, then I think the spectrum analyzers also two are required is it correct.

Reply
SwagatamAdmin
January 8, 2020 • 7 years ago #74163

Yes that may be correct!

Reply
Doru M.
November 28, 2019 • 7 years ago #72567

If u use a standard power module Vcc(+) and Ground(-) like a PC power supply, not a diff one (+Vcc 0v -Vee), the FIRST OP (+) entry must be connected to a Vcc/2 potential; i.e. a std. R+R divisor, let say 100k+100k, first R between +Vcc pin and OP (+) entry and the second one between OP (+) entry and the Ground(-)!!!

Reply
Doru M.
October 8, 2019 • 7 years ago #70875

The volume potentiometer is linear or logarithmic ? Some question about band poentiometers. Tnx.

Reply
SwagatamAdmin
October 8, 2019 • 7 years ago #70877

All pots are linear

Reply
Fuscus
October 8, 2019 • 7 years ago #70860

How do you make this stereo? Do you make 2 PCBs one for the left channel and one for right channel?

Reply
SwagatamAdmin
October 8, 2019 • 7 years ago #70868

Yes that’s right, you will need a pair of these units for a stereo output…

Reply
Fuscus
October 8, 2019 • 7 years ago #70870

Is it possible to get away with making 2 amplifier stages and connecting them to the 10 pot row? Wouldn’t the signals get mixed?

Reply
SwagatamAdmin
October 8, 2019 • 7 years ago #70874

For stereo you will need two separate amplifiers at the output of the two equalizer circuits.

Reply
Fuscus
October 8, 2019 • 7 years ago #70878

I was thinking of making 2 sets of IC1/1 and IC1/2 and connect them in parallel to the pot row.

Reply
SwagatamAdmin
October 8, 2019 • 7 years ago #70879

Sorry that won’t work. For stereo you will have to make two isolated sets.

Reply
Jack
November 5, 2017 • 9 years ago #55571

15band eq

Reply
Jack
November 5, 2017 • 9 years ago #55568

can I make use of ic LM339 ?hope it will not affect d response output? I have interest in this cct I hv been looking for such pretty small smart Unique cct.sir If adding like another 5 freq to it or more,what will be d output status? I want to build it an use it for m church

Reply
Fromauss
May 29, 2020 • 6 years ago #79068

@Swagatham, how can I calculate the quality factor of the individual gyrators?

Reply
SwagatamAdmin
May 29, 2020 • 6 years ago #79076

You can check each of the gyrators separately with an oscilloscope to confirm their quality individually

Reply
SwagatamAdmin
November 5, 2017 • 9 years ago #55577

LM339 might not work correctly, only an opamo is recommended such as LM324, or other similar….you can add as many stages as you like by suitably modifying the capacitor/resistor values

Reply
Berner
October 17, 2017 • 9 years ago #54903

Thanks for the circuit!

I recently bought a home theater system and found out it had a terrible software. the equilizer is simply awfull, hard to cut the bass and with a poor digital-only interface.

So I’m planning to build my own equilizer to improve it. the point is: it has 5 speakers + a sub.

If I wanted to equilize every single channel, how would you suggest me to do it? Maybe those multi-channel pots to equilize them together without mixing the outputs?

Reply
SwagatamAdmin
October 17, 2017 • 9 years ago #54904

My pleasure!

for controlling tone individually and with maximum effectiveness and range, you can probably try any of the following concepts:

makingcircuits(dot)com/?s=bass

and build 5 of these modules together to get five separate equalizing options….you can also play with the values of the caps around the relevant pots to tailor the response levels.

Reply
Guillermo
September 7, 2017 • 9 years ago #53339

Hi Swagatam, thanks for the circuit. I was wondering, in each filter the feedback is done througth the inverting terminal or the non inverging one?

Reply
SwagatamAdmin
September 8, 2017 • 9 years ago #53344

Hi Guillermo, I have updated the design with signs, please check it out, you can use TL074 for the ICs, or even LM324, or RC4136 will work

Reply
Anthony Wolf
September 16, 2016 • 10 years ago #44662

hi my name is anthony and im fairly new to audio circuts and circuts in general, im just a kid but i got into makeing cool audio circuts and i wanna make this equalizer but i have two questions :/ i hope you can help, on the 250k pot there is a wire that kinda goes off into nothing, is that conected to anything, im asuming ground but i just wanted to check, and there is a circle on the wire going from the 250k pot to the 10k resistor :/ i know this is probobly a dumb question but if anything what does it mean??? i really hope you can help im getting a bunch of money for my birthday on the 18th os september(on sunday) and i wanna build a nice equalizer for my room and electronics projects and this is the best one ive seen so far, i hope you can help and im sorry if these are dumb questions im just learning. thanks 🙂

Reply
Denny
December 30, 2021 • 5 years ago #108764

Maaf … Ijinkan saya bertanya.
Dalam skema .. Pada ic 1/1 PIN ( – ) diarahkan ke 0 volt, apakah artinya PIN tersebut juga bisa dihubungkan langsung dengan PIN 4 apabila saya menggunakan TL 072 atau RC 4558 ?
Terimakasih

Reply
SwagatamAdmin
December 31, 2021 • 5 years ago #108800

If you are using TL072 then yes pin4 and all the 0V lines can be connected with each other.

Reply
Anthony Wolf
September 17, 2016 • 10 years ago #44678

thankyou so much 😀

Reply
SwagatamAdmin
September 17, 2016 • 10 years ago #44673

Hi, the lower end of the 250K goes nowhere meaning this terminal should be kept unused….to be precise the center lead of this pot needs to be connected with R24, and one of the outer leads to C22 while the other outer lead may be left unused, please ignore the circle you can replace it with a wire link.

Wish you all the best with this project and a Happy Birthday in Advance

Reply
Jim Alexander
November 13, 2019 • 7 years ago #72006

Do you have a part list or bill of material for your system?

Reply
Fromauss
May 30, 2020 • 6 years ago #79109

I know that we can use fr/BW formula but what if I want to design a gyrator for a specific use? Do you have any formula to calculate the quality factor of a typical gyrator? If the quality factor isn’t set correctly, then nearby bands can interfere. I didn’t get any information from the net and so I’m solely relying on you.

Reply
SwagatamAdmin
November 13, 2019 • 7 years ago #72021

I have updated the parts list in the article, please check it out.

Reply
PCR - PersonalComputerRepair
August 31, 2016 • 10 years ago #44091

Dual OpAmps that work: 1458's & 4558's. The latter has Lower Noise if I remember correctly.

Reply
SwagatamAdmin
June 8, 2016 • 10 years ago #41639

Hi, you can probably try the formulas explained in the following article:

https://www.homemade-circuits.com/2016/01/design-high-pass-filter-circuit-quickly.html

Reply
Julie Himaya
October 4, 2015 • 11 years ago #34565

Hi there. Nice circuit. Good for anyone who has the enthutiast in electronic. Is there a ready made pcb lay out for this project? Planning to build it. Thanks

Reply
SwagatamAdmin
October 4, 2015 • 11 years ago #34567

I am sorry, PCB is not available at the moment, but I may surely try to update it in near future

Reply
Garry Gutierrez
February 25, 2015 • 11 years ago #29017

thank you sir

Reply
Garry Gutierrez
February 23, 2015 • 11 years ago #28984

where is the + and – supply?

Reply
SwagatamAdmin
February 24, 2015 • 11 years ago #28995

for LM324 IC, pin4 is the positive and pin11 is the negative….

Reply
jose
March 18, 2014 • 12 years ago #20623

What components are conected to inversor inputs?

Reply
SwagatamAdmin
March 20, 2014 • 12 years ago #20651

please click the diagram to enlarge and see the details.

Reply
Ruizhe Shang
October 10, 2013 • 13 years ago #16020

hmm, what's the supply voltage you give to the IC, it seems we don't need to use negative voltage here, right? 🙂

Reply
SwagatamAdmin
October 10, 2013 • 13 years ago #16040

yes it needs a single supply, can be anywhere between 5 and 24V,

IC is LM324

Reply
« Back to Newest Comments

Need Help? Please Leave a Comment! We value your input—Kindly keep it relevant to the above topic! Cancel reply

Your email address will not be published. Required fields are marked *

Primary Sidebar



My Youtube Channel

Circuit Simulator

circuit simulator image



Subscribe to get New Circuits in your Email



Categories

  • Arduino Projects (95)
  • Audio and Amplifier Projects (134)
  • Automation Projects (18)
  • Automobile Electronics (103)
  • Battery Charger Circuits (88)
  • Datasheets and Components (109)
  • Electronics Theory (149)
  • Energy from Magnets and Earth (40)
  • Games and Sports Projects (11)
  • Grid and 3-Phase (20)
  • Health related Projects (27)
  • Home Electrical Circuits (13)
  • Indicator Circuits (16)
  • Inverter Circuits (99)
  • Lamps and Lights (162)
  • Meters and Testers (72)
  • Mini Projects (28)
  • Motor Controller (68)
  • Oscillator Circuits (28)
  • Pets and Pests (15)
  • Power Supply Circuits (91)
  • Remote Control Circuits (50)
  • Security and Alarm (65)
  • Sensors and Detectors (107)
  • SMPS and Converters (45)
  • Solar Controller Circuits (60)
  • Temperature Controllers (43)
  • Timer and Delay Relay (50)
  • Voltage Control and Protection (44)
  • Water Controller (37)
  • Wireless Circuits (31)



Other Links

  • Privacy Policy
  • Cookie Policy
  • Disclaimer
  • Copyright
  • Videos
  • Sitemap

People also Search

555 Circuits | 741 Circuits | LM324 Circuits | LM338 Circuits | 4017 Circuits | Ultrasonic Projects | SMPS Projects | Christmas Projects | MOSFETs | Radio Circuits | Laser Circuits | PIR Projects |



Recent Comments

  • Swagatam on True MPPT Solar Controller Circuit using IC 555
  • Swagatam on Electronic Circuit Projects, Tutorials, and Practical Engineering Solutions
  • Swagatam on Simple 20 watt Amplifier Circuits
  • Miracle on RC Helicopter Remote Control Circuit
  • Dale on Simple 20 watt Amplifier Circuits

Social Profiles

  • Twitter
  • YouTube
  • Instagram
  • Pinterest
  • My Facebook-Page
  • Stack Exchange
  • Linkedin

© 2026 · Swagatam Innovations