The Speaker Wiring Diagram And Connection Guide – The Basics You Need To Know

We all enjoy music and speakers make that possible – but it’s confusing if you’re not sure how to connect them the right way.

In this post, you’ll find clear and detailed speaker wiring diagrams to help (and that you can print out if you like, too!).

I’ll go into detail about the right and wrong way to wire speakers and connect them properly to your stereo or amplifier. It’s actually pretty simple once you learn the basics.

Printable speaker wiring diagram

Click on the image to enlarge it or click here for the Adobe .pdf version you can download and print.

Image of illustrated speaker wiring diagram

Speaker basics and speaker wiring explained

1.  What is speaker impedance? (the “Ohms” rating)

Speakers, much like other electromechanical devices, all have an electrical resistance to the flow of electrical current, much like a standard resistor, a light bulb, or many common items you’re familiar with.

The difference is how they behave when music is present when they’re connected to a musical amplifier of some sort.

The resistance value comes from a long coil of wire inside each speaker called a voice coil. A voice coil is a coil of wire that, when placed inside a magnetic field, makes the speaker move and produce sound when driven by an amplifier.

Example of a speaker voice coil close up

Speakers contain a long wound loop of wire called a voice coil. Loops of wire have a property called inductance which affects a speaker’s resistance value depending on the frequency (sound range) being played.

As they have electrical properties that include inductance and capacitance, their “total resistance” can actually change with the music slightly. Because of this, there’s some extra math needed to figure out the total resistance.

The word used to describe this is called impedance.

Speaker impedance is just a more advanced way of finding the total resistance, and by tradition is measured in units called “Ohms.”

The good news is that you don’t have to worry too much about the details – it doesn’t matter for basic speaker use, and long as you understand the basic rules you’ll be fine!

2. Stereo and amplifier minimum impedance ratings

All amplifiers of any type – where it’s a car stereo amplifier, home stereo receiver, home theater amplifier, and so on, have a minimum Ohms (impedance) rating. It’s important that you pay attention and don’t exceed the minimum speaker impedance rating.

This is because as the impedance is lowered, the electrical current increases and the stereo has to do more work. This increases the amount of stress and heat it has to handle.

If your stereo is labeled by the manufacturer as being “8 ohm speaker compatible” or similar, that means connecting lower impedance speakers can cause excessive heat and possible damage very quickly.

For example, connecting a 4 ohm speaker to an amplifier that is labeled as working with 8 ohm speakers would mean it would have to produce double the electrical current to the speaker!

Image of the rear of a stereo receiver and speaker impedance terminals

Image of the rear of a home stereo receiver/amplifier. The recommended speaker impedance ratings are usually listed above the speaker wire posts. A home stereo, for example, may often list 6-16 ohms as being ok for use.

Also, attempting to wire two 8 ohm speakers in parallel to an 8 ohm stereo would have the same effect. (Two 8 ohm speakers in parallel is equal to 4 ohms total that the amp will see)

I’ve seen many attempts by people who had friends who claimed they could “boost the power” or “get more power” by some claimed trick, but it doesn’t work. They ended up with a burned-out amplifier.

An amplifier can only handle so much heat and stress before it fails, so be sure to observe these rules. Be sure you wire speakers to meet the minimum Ohm rating you need.

Remember: don’t use a speaker impedance below the rating given by the manufacturer. Overheating or permanent damage can result. I’ve seen it happen!

3. What is speaker polarity?

Speakers are different than other devices in that they work using alternating current (AC) instead of direct current (DC). This is good news! It means you can’t harm your speakers in most cases by having the positive (“+”) and negative (“-“) wiring reversed.

Unfortunately, it gets just a little bit more complicated when we use more than 1 speaker.

Speak polarity and why you should match speaker connections

As I mentioned, speakers work by moving a cone back and forth in order to produce sound. If you wire 2 speakers in a stereo with different polarities (for example, one has positive and negative wired as labeled, and the 2nd speaker has the opposite) an interesting thing occurs: they’re out of phase and some sound cancels out.

The result is a strange and poor sounding stereo. In most cases, you’ll notice a lack of bass sound and it won’t sound pleasing to the ear as expected.

Diagram showing speakers in and out of phase

When speakers are wired the opposite of each other sound waves cancel out. When wired the same, sound waves add together for more sound.

Speakers that are wired differently sound poor because much of the sound is canceled out. Basically, it’s simply because sound waves from one speaker are moving in the opposite direction of the other speaker – and if they’re close to the same time and frequency range, often they cancel out.

This is why when 2 woofers are placed in a box and are wired in parallel but with opposite connections to each other, they are “out of phase” and have almost no bass! It’s because they are doing the opposite work rather than working together to produce more sound.

While one is moving up, the other is moving the opposite direction, and so on.

So the most important thing here to remember is to wire speakers consistently the same way as each other.

4. Wiring 2-way and 3-way speakers

2-way speakers, such as home stereo or car audio component speakers, are those which come as a pre-designed speaker set and use a crossover. The job of a crossover (also called a passive crossover, because it use basic capacitors and inductors rather than electronics) is to restrict the music production each speaker tries to produce.

For example, tweeters can’t reproduce bass frequencies (and can in fact be damaged by them) so a 2-way speaker crossover is used to prevent this. Similarly, a woofer can’t produce high pitch sounds well and is prevented from doing so.

Unlike standard separate speakers, 2-way and 3-way speakers that have a crossover can only be used in parallel and not in series.

This is because unlike separate speakers with no crossovers, in this case, many sounds will be filtered out. What this means is that little to no sound would be produced if another 2-way speaker is connected in series.

Image for 2-way speaker diagram examples

Therefore if you have a home stereo or car stereo in which 2-way speakers are used, you’ll have to add more 2-way speakers (if the total impedance can be supported by the amplifier) or add more amplifier channels for more sound.

5. Doubling the number of speakers or amount of power does not double the volume

In some cases, more speakers can be added to increase the amount of volume you can get or to place speakers in more rooms, more locations in your vehicle, and so on. You also may have wondered what would happen if you bought an amplifier with twice the power of your present one.

There’s one important thing to understand, however: having 2 or 3 speakers instead of one does not double or triple the sound. It increases a few decibels (dB) for each speaker added.

Doubling the power does not double the volume either.

This is because of how the human ear works and the physics of sound, along with how speakers work and how much volume they can produce for a given amount of power.

Generally speaking, the human ear will hear a very small amount of volume increase for each doubling of acoustic power: about 3 decibels (dB). For most people, the small amount of volume increase you notice when turning up a volume knob 1 notch is somewhere around 3dB.

Example volume produced by a typical speaker at different power levels:

  • 1W = 89 dB
  • 2W = 92 dB
  • 4W = 95 dB
  • 8W = 98 dB
  • 16W = 101 dB
  • 32W = 104 dB
  • 64W = 107 dB
  • 128W = 110 dB

So as you can see, doubling the amount of power you can drive a speaker at does not mean you’ll double the volume. It increases it a very small amount (as far as your ears are concerned).

You can also see from above that really cranking the volume takes a lot of power!

How to get more volume from speakers

The best ways to get more volume  in most cases are:

  • Use more efficient speakers (speakers that produce a higher dB volume at 1W of power – higher is better)
  • Add more speakers if you have an amplifier that can support it
  • Use higher-power rated speakers and a larger power amplifier if a lot more volume is your goal

Most people need an amplifier that can produce enough volume to fill a room or vehicle and turn up the volume from time to time. I like to use 50W or higher per channel as a good rule of thumb when buying an amplifier.

How to read speaker positive and negative labels (+ and -)

Home stereo and car speakers normally often use a red or plus sign “+” to indicate the polarity for the speaker wiring terminals which you connect your wiring to.

Here are a few things to know there as well:

  • In some cases, a black dot or a red or black stripe is used to mark the positive terminal
  • If a speaker has terminals of 2 different sizes, the larger of the 2 is normally the positive one
  • For speakers with wire already attached, typically the brass or golden-colored wire is the positive one
  • For speakers with wire attached but the same colored wires, most have some small printing on the positive wire – be sure to check closely

Summary

Here I’ve provided you with a speaker diagram showing basic connections, I explained several important things you need to know about speakers and speaker wiring. Hopefully I’ve given you more understanding about how to connect speakers and get the most enjoyment out of your system.

Have questions, comments, or suggestions? Be sure to leave a comment below or send me a message.

Confused about tweeters? Here’s a helpful guide explaining what tweeters are and what they’re used for.

Interested in bridging your car amp?  Find out how to bridge a car amp in this post.

Your comments are welcome!

  1. Hi Marty
    I have a B&W Center Speaker CC6 S2 which has has 2 x 4″ mid/bass speakers & a tweeter, one of the mid/bass speakers while working sounds as if it is only putting out bass and no mid-range, I’m thinking this is not right and there is a fault? And would the fault be with the cross-over? Cheers

    Reply
    • Hi David. I assume you mean it sounded better to you but now sounds worse? It is possible that it is the crossover, although that would be fairly uncommon. The best way to find out is open it up if possible and see what you find.

      I would make 100% sure that speaker is working at all.

      Reply
      • Thanks for your reply,
        Yes I pulled it out of the enclosure, still wired up it is definitely working, but I’ve always felt the unit was under performing (a 2nd hand purchase which had been repaired) I’m wondering whether they connected the speaker out of phase? Would it damage anything further if I swap the leads on the speaker terminals to check?
        Thanks again

        Reply
        • Ah, ok, understood. Feel free to try reversing the leads on one speaker it won’t hurt anything. It’ll simply reverse the phase by 180° and you’ll know right away if that’s the issue.

          Yeah, I wouldn’t be surprised if they didn’t connect it properly or something else isn’t right.

          Reply
          • Back again, so I swapped the 2 mid-range/bass drivers to check if it was the speaker but the problem remained on the left side (whichever driver was installed) and then I reversed the leads and it got slightly worse if anything. It’s almost as if there the crossover is sending lower freq to the left side and mids to the right, but that would be highly unusual (and I haven’t totally dismantled the unit, to check if the drivers are wired in parallel)

          • Hi, the best thing to do is open it up and verify the crossover is correct/not modified etc. There’s not much else I can recommend at this point.

  2. I’ve built four passive sub woofers and they all four have 8 ohm drivers. I have a four ohm sub amp with two sets of binding post, I think there just connected inside, and I want to wire these four subs to 16 ohms, exactly how is this done? Several people are doing this on a forum and they tell me to do a search for myself, they don’t want to be responsible when I screw it up! Again there all separate boxes placed away from one another. Thanks

    Reply
    • Hi, you can’t wire four 8Ω SVC speakers in a standard configuration and get 16Ω. Your options are: 32Ω (series), 2Ω (all parallel), and 8Ω (series-parallel).

      So you’ll need to pick one of those. If the amp is a mono amp then yes the 2nd pair of speaker terminals should be internally connected. Mono amps sometimes have additional terminals to make connections easier.

      Reply
    • Hello Scott. If you have a 2 channel amp the only way to do that (assuming the amp is bridgeable) is to connect them in tri-mode.

      This would be Left speaker: left channel, right speaker: right channel, subwoofer: bridged connection. You would need an inline passive crossover for the subwoofer to get it sounding right, however.

      The best way to deal with it is a 4 channel amp so you can use a low-pass crossover on separate channel/channels for the subwoofer and block all non-bass sounds so you’ll get clear, pure bass from it. But the tri-mode setup can be used if you must.

      Best regards.

      Reply

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