Understanding Distributed Speaker Systems

Distributed speaker systems are also known as “100 volt line” or “70 volt line” speaker systems. They are used extensively where multiple speakers are required. Distributed speaker systems are commonly used in airports, shopping centers, schools, churches, clubs, offices, car-parks, sports grounds and anywhere multiple speakers are required. They can also be used in homes for background music systems.

Advantages of Distributed Speaker Systems

The main advantages of distributed speaker systems are:

  • No need for complicated calculations of total speaker impedance – simply add together each speaker’s wattage (see below for more details)
  • Many speakers can be connected to an amplifier.
  • Extra speakers can normally be added to the system
  • The volume of each speaker can be adjusted independent of the main volume (so the toilet speakers are not as loud as the foyer speakers).
  • Smaller cables can be used. Distributed speaker systems use much less current through the speaker cables
  • Longer speaker cables are possible with minimal line loss. Cables runs can be 100’s of metres or 1000’s of feet.

Disadvantages of Distributed Speaker Systems

The main disadvantages of distributed speaker systems are:

  • Each speaker requires a step-down transformer
  • The transformers affect the quality of the sound – typically the lower frequencies are not transferred as well as a speaker system without transformers.
  • Without using expensive transformers, use is often limited to paging, voice and low level (background) music installations.

Distributed Speaker Systems Overview

The basis of distributed speaker systems is similar to the way electricity is distributed. Power stations use step up transformers to distribute power as high voltage, which means low current, and therefore low line losses and thinner cables. Each town and/or street then converts this high voltage/low current down to low voltage/high current (through step down transformers) for use in your home.

Distributed speaker systems use a similar principle. The amplifier normally has a step-up transformer built into it, producing a high voltage/low current output. Then each speaker has its own step down transformer to convert the signal back to low voltage/high current. This allows the cable to be very long without having any significant line losses.

distributed speaker systems overview

100 Volt Line Speaker System

The most common “high” voltage used in distributed speaker systems is 100 Volts. In many countries distributed speaker systems are known as “100 Volt line” speaker system.  In a 100 Volt line speaker system the output of the amplifier is marked “100 volt”. Indeed at full output, the amplifier puts out 100 volts RMS. Each speaker then has a transformer to reduce the 100 volt line level down to normal speaker level.

70 Volt  Line Speaker System

In North America the most common “high” voltage for distributed speaker systems is 70 Volts. This is because years ago, some states had laws stating that any cable with a maximum voltage greater than 100 Volts peak had to be installed in conduit. This was time consuming and costly to install. So they developed a system where the output voltage of the amplifier was a maximum of 100 Volts peak. This equates to 70.71 Volts RMS. This is commonly known as a “70 Volt line” speaker system. The principle is the same as for 100 volt line systems, but uses a maximum output voltage of 70 Volts. While 70 volt line systems are still the most common in the USA, some 100 volt lines systems are being used.

50 Volt Line and 25 Volt Line Speaker Systems

Less common, but still seen on some amplifiers are 50 volt line or 25 volt line outputs. The principles are the same for all voltages, but the lower the voltage, the more current, therefore the shorter the maximum cable length without significant line losses.distributed speaker systems terminals

In practice, many commercial amplifiers have multiple outlets. They may have 100 and 70 Volts, or 70 and 25 Volts, as well as 4 ohm and 8 ohm outputs for normal speakers (without transformers). Normally you should only use one output of a amplifier, that is, either the 100 volt line output, or the 70 volt line output or the 8 ohm output, not all at the same time.


Every speaker in distributed speaker systems needs to be connected to a step down transformer. This converts the high voltage level down to normal speaker level.

One side of the transformer normally has a common (or “0 volts”) and a 4 ohm and 8 ohms connection.  An 8 ohm speaker would be connected to the common and 8 ohm taps, while a 4 ohm speaker would be connected to the common and 4 ohm tap.

Most transformers have a selection of input taps. The example in this picture has taps for 20 Watts, 15 Watts, 10 Watts and 5 Watts. The feed cable is connected to the common and any one of the other taps. This allows the relative volume of the speaker to be set during the installation. For example the speaker in a high noise room might be set on 20 Watts, while the speaker in a small, low noise area might be set on 5 watts. Alternatively, the distance between the speaker and the target audience might be different, so the speakers further away can be set at a higher power tapping (or the close speakers at a lower power tapping). To help in determining the correct tap for each speaker in every situation, see my SPL calculator for distributed speaker systems.

All amplifiers designed for use with distributed speakers systems have a step-up transformer built-in. It is also possible to add an external transformer to an amplifier without an integrated transformer. Simply use a speaker transformer in reverse – that is, connect the common and 8 ohm transformer connection to the common and  8 ohm speaker output of the amplifier.  Just make sure the amplifier and transformer are rated with enough power to drive all the speakers to be connected (see Connecting Multiple Speakers below).


Any speaker can be used in a distributed speaker system, as long as a step-down transformer is used. Many manufacturers produce speakers with integrated transformers for use in distributed speaker systems. ceiling spkr for distributed speaker systems

Ceiling Speakers

Ceiling speakers are used in many distributed speaker system installations to cover large areas and/or multiple small rooms or areas. The speaker cable is normally connected directly to the transformer.  To change the power settings you need to connect the speaker cable to a different transformer tap. In the speaker pictured, this is a simple matter of moving the speaker wire to a different terminal connector.

Cabinet Speakers (Speaker Boxes)

100 volt box speaker for distributed speaker systems

Speaker boxes come in all sorts of shapes and sizes. Many manufactures make a version of their cabinets with an integrated transformer. Connections are often by some form of speaker terminals. To change taps, simply rotate the switch to the desired power setting. Often these switches also have a position for 8 ohms (bypassing the transformer) – this makes them very versatile speakers for the installer. Speaker boxes are used where ceiling speakers aren’t practical, or where higher sound levels are required.
rear of horn speaker for use with distributed speaker systems

Horn Speakers

Horn speakers are very efficient, but not very good quality. They are mostly used outdoors when coverage of a large, or high noise, area is required. For example in car parks, sports grounds, school yards and other outdoor areas. In the picture shown, the rear of the horn has a selector switch which needs a flat bladed screw-driver to operate. This is useful to reduce the likelihood of inadvertent changing of the settings after the install.

Connecting Multiple Speakers

This is the fun bit, because there is no need to calculate the total impedance. To connect multiple speakers in distributed speaker systems, just wire them all in parallel and add up the total watts.

Example 1: A PA amplifier is rated at 120 watts @100 volt line. Therefore you could connect:

  • 20 x 5 Watt (100 volt) ceiling speakers (total 100 Watts), or
  • 40 x 2.5 Watt (100 volt) ceiling speakers (total 100 Watts), or
  • 10 x 5 Watt (100 volts) ceiling speakers and 20 x 2.5 Watts (100 volt) ceiling speakers (total 100 Watts), or
  • any combination of speakers that add up to no more than 120 Watts.

Example 2: A small church has a small 25 Watt (70 Volt) PA amplifier with 4 small speakers mounted in the church (2 down each side). They now want to add a speaker in a separate room for an overflow and creche area.

  • 4 existing speakers can be wired at 2.5 Watts (70 Volt), total of 10 Watts
  • A new box speaker can be wired at 10 Watts (70 Volt), this allows it to be louder than any of the small church speakers (since the creche area has much more ambient noise levels).

As shown, it is easy to add the individual speaker watts together. This is much easier than calculating the total impedance.This makes installation much simpler.

Calculating Watts from Speaker Impedances

Sometimes manufacturers of speakers designed for distributed systems only mark their speakers with the impedance of each tap, rather than the Watts. Also, many impedance meters tell you the impedance, and you need to calculator the wattage.

In either case, you can use this simple calculator:

Tips for Using Distributed Speaker Systems

Following are some practical tips for installing distributed speaker systems:

  • Keep all the speakers in phase. This means the the “O volt” or the “Com” of the amplifier speaker terminal should be connected to the “O Volt” or “Com” of each speaker transformer.
  • It is good practice to design distributed speaker systems to use up to only 80% of the amplifier’s total available power. For example, a 120 Watt PA amplifier should only be connected to a maximum of around 100 Watts of speakers. This helps avoid the amplifier’s transformer distorting from saturation (overload), allows for inefficiencies in the system, and allows an extra speaker to be added if required in the future.
  • When designing distributed speaker systems, calculate the total watts of the speakers, and select an amplifier larger than required. For example, If an install requires 10 speakers at 5 Watts each (total load of 50 Watts), a 60 Watt amplifier could be used, but selecting a 100 Watt or 120 Watt amplifier will allow speaker taps to be changed or extra speakers added in the future. It is a relative small increase in price to up-size the amplifier before purchase, rather than have to buy a new one later.
  • When selecting speakers, chose a higher power one than required. For example: If a 5 Watt ceiling speaker is required, chose a 10 Watt or 15 Watt speaker and use the 5 Watt tap on the transformer. This again reduces the likelihood of overloading cheaper transformers, and gives the ability to increase the power level (volume) if required.
  • When connecting many speakers, it is good to have multiple feed cables. For example; if connecting 60 speakers, it is possible to use one speaker cable run and loop in and out of each speaker. However it is better to have several feed cables to smaller groups of speakers. This way if a fault occurs, it is easier to isolate which feed the fault in on. Also the total load (and cable loss) is shared by each cable run. If you have long cable runs, see my Cable Loss Calculator to ensure you use the right size cable.
  • It is possible to get some speakers with a built-in attenuator to control the volume of the speaker. This is useful in situations when you want the listener to control the volume. For example in a creche. It is also possible to get external attenuators to control the volume in a room or for an individual speaker.
  • If possible, measure the impedance of each speaker feed cable before connecting the amplifier. This is best done with an impedance meter. If installing a number of distributed speaker systems, an impedance meter is very useful. For examples of impedance meters, view Amazon’s range here.
  • Don’t connect a 4 ohm or 8 ohm speaker directly to a 100 volt line or 70 volt line speaker cable. Apart from severely overloading the speaker (and possibly burning it out) a 4-8 ohm speaker effectively puts a short circuit on the speaker line and overloads the amplifier. See the calculations below for the mathematical explanation of this.
  • If a 100 Volt line amplifier is overloaded, connecting the load to the 70 Volt line effectively halves the load on the amplifier and it will not be overloaded.
    • Example 1: The total watts of all the (100 Volt) speakers totals 200 Watts. If connected to the 100 Volt line speaker terminals of a 120 watt (100 Volt) amplifier, the amplifier will be overloaded. Connect the same speakers to the 70 Volt line terminals of the same 120 watt amplifier and the amplifier will only see a load of 100 Watts.
    • Example 2:  The total watts of all the (70 Volt) speakers totals 50 Watts. If connected to the 70 Volt line speaker terminals of a 40 watt (70 Volt) amplifier, the amplifier will be overloaded. Connect the same speakers to the 50 Volt line terminals of the same 40 Watt amplifier and the amplifier will only see a load of 25 Watts.
    • You can use the calculator above to see this by selecting the different system voltages. For those whose like to know, the mathematical explanation of this is below.


Distributed speaker systems are ideal for multiple speaker installations. They allow long speaker cables and calculation of the total load is easy. Distributed speaker systems are normally mono (not stereo). They are mostly used for paging and background music situations. Although normally used for commercial installations,  they can be used in domestic installations for background music systems

Below are some of the major calculations used with distributed speaker systems (you can stop reading now if you are not into calculations).

Calculations for Distribution Speaker Systems

The following calculations are for those who like to understand the mathematics behind the principles outlined above. You don’t need to understand these calculations to use distributed speaker systems, but it will help you understand and design systems better.

Several principles of distributed speaker systems have been outlined above. A mathematical explanation of each principle is now given under the following sub-headings:

Adding the Power of Each Speaker

As an example, four 5 Watt speakers are connected together (in parallel) to a 100 Volt line amplifier.

The simple way to calculate the total load is to add 5 + 5 + 5 + 5 = 20 Watts.

The harder way (which is why its not normally done) is to calculate the impedance of one speaker, and then calculate the total impedance of 4 such speakers in parallel, and then calculate the total power.

So the impedance of a 5 Watt speaker on a 100 volt line:

Impedance={\Large\frac{Volts ^2}{Power}=\frac{100 ^2}{5} = \frac{10,000}{5} =}\, {\large 2,000}\, ohms

That’s right, the impedance of a 5 Watt speaker with a 100 volt transformer is 2,000 ohms. Now to calculate the total impedance of four of these connected in parallel:

\frac{1}{R_{Total}}= \frac{1}{R_1}+\frac{1}{R_2}+\frac{1}{R_3}+\frac{1}{R_4}  so  \frac{1}{R_{Total}}= \frac{1}{2000}+\frac{1}{2000}+\frac{1}{2000}+\frac{1}{2000}=\frac{1}{500}

therefore R (total) = 500 ohms.

Now the total power of 100 Volts with a total impedance of 500 ohms can be calculated:

Power={\Large\frac{Volts ^2}{Impedance}=\frac{100 ^2}{500} = \frac{10,000}{500} =}\, {\large 20}\, Watts

Low and behold, that is the same as simply adding the speaker watts together – which is much simpler!

Changing the Amplifier Connection Halves the Load

Example 1: The total impedance of 200 watts of 100 Volt speakers can be calculated:

Impedance={\Large\frac{Volts ^2}{Power}=\frac{100 ^2}{200} = \frac{10,000}{200} =}\, {\large 50}\, ohms

Now look what happens when that same 50 ohm speaker load is connected to the 70 Volt terminal of the amplifier:

Power={\Large\frac{Volts ^2}{Impedance}=\frac{70.71^2}{50} = \frac{5,000}{50} =}\, {\large 100}\, Watts.

Amazing, the same 50 ohm load draws 200 watts of power on a 100 volt line system, but only 100 watts on a 70 volt line system.

Example 2: The total impedance of 50 watts of 70 Volt speakers can be calculated (remember 70 Volt line is actually 70.71 Volts):

Impedance={\Large\frac{Volts ^2}{Power}=\frac{70.71 ^2}{50} = \frac{5,000}{50} =}\, {\large 100}\, ohms

Now look what happens when that same 100 ohm speaker load is connected to the 50 Volt terminal of the amplifier:

Power={\Large\frac{Volts ^2}{Impedance}=\frac{50^2}{100} = \frac{2,500}{100} =}\, {\large 25}\, Watts

This principle is very handy to the installer if the power required by the speaker load is greater than what the amplifier can deliver. Simply move to the lower line voltage speaker connection and the power drawn is halved.

A 8 Ohm Speaker will Overload a Distributed Speaker System

In the examples above we saw the speaker impedance of distributed speaker systems is reasonably high. For example a 5 watt speaker on a 100 Volt line has an impedance of 2,000 ohms. Even a 125 Watt load of 100 Volt speakers is 80 ohms. So imagine the load if the total impedance is only 8 ohms. It should be 10 times the load right? This scenario can be calculated:

Power={\Large\frac{Volts ^2}{Impedance}=\frac{100^2}{8} = \frac{10,000}{8} =}\, {\large 1250}\, Watts

That’s right, connecting a low impedance speaker (4 or 8 ohms) to distributed speaker systems will drastically increase the load on the amplifier.


  1. Hi

    I’m trying to figure out what size amplifier to purchase on a 100V system.
    If i put a ceiling speaker into a 3m x 3m room and just want to play very soft background music, what wattage tapping on the transformer do you suggest?
    The reason for my question is that I want to buy a 30W amplifier, but don’t want to run into a issue that I should have rather purchased a 60W amplifier as the speakers on 2,5W is to low and should rather be on 5W or 10W each.

    Any suggestions on what tappings are suitable for which room size?

    • Hi Nicolas,

      You’ll may be surprised how little power you need for background music. In large supermarkets I often set the speakers at 2.5 watt or lower.

      But don’t take my word for it. Read this article on Speaker Sensitivity and use the last calculator. For the amp power, type in 5 or 10 or 2.5 and see the resulting level.

      hope this helps,


  2. Hi Geoff

    First thank you so much for your article is very helpful for beginners people like me:)

    I have a doubt in regard to the matter of the impedance in a distributed speaker system, in my case I have 26 speaker 8 ohm, 5 watts minimum and an amplifier 8 channel 150W/ch, 100V output line, according to my understand I can connect those speaker easy in parallel because the total sum of wattage in my array is 130W (26*5W) therefor I can use just one of the channel to connect all my speakers but I am confuse because those are low impedance.

    If you can please give me your comment that will be great.

    Best Regards

    • Hi Alejandra,
      Your conclusions are correct.

      Firstly, in regard to the calculations you are correct.

      Secondly, in regard to this not being right with low impedance speakers, you are also correct. In that this calculation does not work with low impedance speakers. Each speaker must have a transformer connected to it. Most commercial ceiling speakers have transformers built-in them. However if you have a domestic speaker without a transformer you can easily buy the transformer separately and add them into the circuit.

      Does this help?


  3. Hi Russ,

    You seem to have it all sorted – well done.

    Adding an external transformer as you suggest is the way to go. The biggest problem is housing them in a waterproof enclosure if it is outside. Having said that, you can mount the transformer anywhere between the amp and the speaker – you don’t necessarily have to mount it right next to the speaker.

    hope this helps,


  4. Hi Geoff,

    I have a Adastra RM240SB 100v amplifier and was wondering if the speaker load has to be distributed
    equally over the 4 100v zones the amplifier supports? I’ve got some Adastra CV8 100V 8″ Ceiling speakers and wanted to know if it’s okay if:

    zone 1 – 1 speaker running at 10 watts
    zone 2 – 1 speaker running at 10 watts
    zone 3 – 5 speakers running at 20 watts each
    zone 4 – 7 speakers running at 10 watts each

    Thank you


    • Hi Mindy,

      The amplifier is just one amp with four output zones. The output zones just help in switching some of the speakers on or off from the amp, rather than having external switches.

      So it doesn’t matter is you use 1,2,3 or 4 of the zones. They can be any mixture of loads you like as long as the total load doesn’t exceed the total output power of the amp (240 watts in your case). With your total load of 170 watts it should be good.

      hope this helps


  5. Hey Geoff. No questions here, just a thank you for the great write up! I work at a highly secure facility, so it’s a bit hard to get vendors cleared to come in and out to do work. So when we needed to install a Crestron distributed speaker and amp system in our classroom, our internal construction and electrical folks were tapped to take care of it. Their only experience was setting up car stereo systems and the like, and nothing about distributed audio. I’ve got a musician’s background, so I wasn’t a ton of help, either. But with the help of your article I was able to direct them on how to set up the system and it sounds great! Thanks again!

  6. Thanks a lot, i found this very helpful after many days of surfing the internet .
    Thank you so much.

    My Question is this:
    Can I bypass the transformer by connecting the speaker directly to an amplifier which has no transformer but has it signal from a loud speaker management system?

    • Hi Innocent,

      You only need a 100v transformer on a speaker if connected to an amplifier with a 100v transformer output. Otherwise it is like connecting a normal 4 or 8 ohm speaker to a normal amplifier. You will just need to check the power handling of the speaker (and the amp) and that the impedance is OK if you connect more than one speaker to the amplifier.

      hope this helps


  7. Hi Geoff, I am new to home theater. I have 4 commercial Sonance Professional Series Pendant speakers. They have an 8 ohm bypass switch on them. Does this mean I can use these as height channels for Dolby Atmos? And if so what size amp do you recommend? I was going to use an external amplification instead of connecting them to my Denon AVR. The specs for the speakers are below. Thank you.

    Frequency Range (-10dB): 41Hz – 25kHz

    Frequency Range (-3dB): 55Hz – 20kHz

    Power Capacity: 160 Watts Continuous Program, Power 80 Watts Continuous Pink Noise

    Nominal Sensitivity: 90dB

    Transformer Taps:

    Rated Impedence: 8 ohms nominal, 6 ohms minimal

    Transformer Taps: 70V: 60W, 30W, 15W and 7.5W 100V: 60W, 30W and 15W

    Crossover Point: 2750 Hz

    TRANSDUCERS LF Driver: 8” (203mm) Polypropylene Cone, Butyl Rubber Surround

    HF Driver: 1” (25mm) Cloth Dome, Pivoting, Ferrofluid cooled

    Input Connectors: Four pin, Euroblock with loop output connections

    • Hi Tom,
      When speakers are switched to the 8 ohm setting, they can be connected to a normal stereo amplifier.

      If you are going to use two in parallel on each channel, the amp will need to cope with a minimum load impedance of 4 ohms. As to the wattage, I would suggest using a similar wattage to the Denon amp. But you could also use the Denon (if it has the outputs available).

      I can’t comment of whether they would sound good, but they should help with the atmos “feel”.

      hope this helps,


  8. Hi Geoff,
    Thank you for all the great information. We set up a church speaker system for the hallway-strictly for background music. We used Pyle Pro PDIC60 6.5″ Two Way in-ceiling speakers (250W peak power and 4 to 8 Ohms) Here is a link: https://www.bhphotovideo.com/c/product/570704-REG/Pyle_Pro_PDIC60_PDIC60_6_5_Two_Way_In_Ceiling.html

    We have 12 of these speakers in the hallway and lobby. We connected them to a 200-watt 2-channel receiver. This one: (link removed – no longer valid)
    But since we connected the speakers in loop or as a ‘daisy chain’. It worked for a 2-3 weeks then slowly the speakers furthest from the receiver stopped working and finally, only 1 speaker is now working.

    Do we need to wire the speakers “in-series’ parallel as your article explains or should we use a speaker selector switch as you recommend? Or any recommendations?

    We are not too techy -we apologize. We read the articles but still want to make sure before we purchase anything else.

    Thank you again!


    • Hi Cesar,

      Assuming you have six speakers wired in parallel on each channel (left and right), then you have presented a load of 1.3 ohms to each of the amplifiers. This is way below the 8 ohms minimum they are designed for. Therefore, this is not the best way to do it.

      If you were to do it correctly you would have got speakers with transformers as shown in the article above. You could still get transformers now, and put them on each speaker. But you would need a new amplifier with a 70 V output.

      Alternatively, you could wire them in series parallel. This would give you a 12 ohm load on the amplifier which would be much much better. But this is a lot of mucking around and crawling around in the ceiling.

      So given what you have installed, it is probably easiest to use a six way speaker selector switch. Even a simple one with the series resistor would probably work okay.

      Having said all that, I’m a bit mystified as to why the speakers stopped working one by one. I would have expected they would stop at the same time as the amplifier turns itself off due to the overload condition. It is probably best to pull each speaker out and test it directly on the amplifier to make sure the speakers are still working.

      Let me know how you go with this, or ask any further clarify questions you need to.


  9. Hi Geoff,

    Nice write up, really helpful to me.

    I will like to ask, for a church I want to install a 12 speaker 8w each to a 120w amplifier. The output of the mixer will be connected to the 120w amplifier, then the output from the amplifier will be connected to a 18 channel distribution amplifier, then each speaker will be connected directly to the distribution amplifier without looping. Is this design ok?

    • Hi Darlo,

      I would need some more information before I pass judgement on your design.

      Does the 120 W amplifier have 70V or 100volt output that as well as 8 ohm? Do the 12 speakers have a transformer on them which has got an 8 W tapping? What are the model numbers of the amplifier and the speakers? Or do you have any details of them that I can see – maybe some photos.

      If you’re 18 channel distribution amplifier has got 18 individual amplifiers then you won’t need the 120 W amplifier. If it is a speaker distribution panel only, then I would need to know its model number.



  10. HELLO MR Geoff
    I got a Coliseum Amps Series – CA1 . Nominal: 120W- maximum: 18OW. Could you please help me and tell how many 10 watts speaker can I use from the 70v output.

    • Hi Manuel,

      I have found some specifications for this amplifier on line. They say it is capable of 180 W. Therefore you could in theory run 18 x 10 W speakers. However it is good practice to keep 20% in reserve. So I would advise to run a maximum of 14 or 15 speakers with a 10 W transformer on them.

      Hope this helps,


  11. Geoff

    I have a question for my PA system, we are the church set up for the big hall around 6000 sqf and have 6 speakers(Enforce 602) 70 volt line for each speaker 5 watt and peavey MMA 8150 ampline line on 70 volt and Mackie 16 channel mixer. Last year we have the big event and I add two speaker (Enforcer Humam 1 speaker) working for event about one hours, then not sound come out(not lound enough….)after the event we set up normal again all the same previous set up is working. I not sure what the problem……..recently I purcahse two Yorkville C130/70 speaker set by 10 watt and connect the previous set and have the samething problem for working 30 minute or one hour then sound gone. If I turn off the system about 15 second turn on again the system not problem again. So I didn’t know why and need to know will the Amplifier need to upgrade?

    • Hi Heng,
      It is difficult to say exactly what the problem is with your setup. If your amplifier is the MMA 815T then it is capable of 150W. So having six speakers at 5W only gives it a load of 30W. Adding another 20W should not be a problem.

      The most common problem with 70 volt systems is that one of the speakers is set to 8 ohms. The first thing to check is that all your speakers are set to the 5W or 10 W.

      It is also possible that you are overloading the amplifier with too much input from the mixer. Make sure you only driving the mixer and the amplifier to 0dB.

      Apart from that, I can’t think of any obvious reason for your problems.


  12. Hi, Geoff. Good article.
    My question is this: If my amp has an input attenuator, and I double the load on the output, does the level at each speaker change? I can’t wrap my head around the math for this. I had an amp go out. There were two identical amps at 400w/ch at 70v. The load on each of the output channels was about 120w (measured). I removed the bad amp for service and doubled up on the outputs. So now the remaining amp has about 240w on each channel. How will the actual SPL at each speaker change? (Truth is, I didn’t test before I left, and left the level control at the same point.)
    Thanks for your help.

    • Hi Judith,

      Providing the amplifier can cope with the additional load there should be very little perceivable difference to the volume at each speaker. The reason is, each speaker only draws what it needs. For example: if each speaker is set at 10 W, then it will draw 10 W from the amplifier. So let’s say we had 12 speakers each drawing 10 W. Each speaker provide sound at a certain level. Now, since the amplifier can cope with hundred 120 W there is no problem. Now you double the load. The amplifier now has provide 240 Watts, but each speaker is still only using 10 W, and therefore producing the same output level.

      Of course if you increase the input attenuator the output level of all speakers will also increase.

      Does this help?


  13. Dear Geoff,
    I have a question about attenuators and a 70 volt system. If an attenuator, (wall mounted volume control), is permanently set to 0, (speaker off), did it effectively take this speaker out of the wattage calculation for the amplifier load?

    • Hi Jim,

      You are correct. With the volume control right down, that speaker(s) has no load on the amp and is effectively out of the circuit. Even one click down, which is normally 6db down, is less than half the load on the amp.


  14. Dear Geoff, Thanks for spreading the knowledge! My question is about external attenuators. Can an external in-wall (stereo) attenuator intended for regular 8 ohm use be installed in a 70v system? If not, can you please recommend a suitable product for this set up? Each speaker will be “tapped” at 20 watt leads.

    • Hi Mark,

      The basic answer is no. You must use an attenuator designed for a 70 volt system, not for an 8 Ohm system.

      Just make sure the power rating of the attenuator is higher than the total load of speakers it will control.

      Have a look at these.

      hope this helps,


  15. Dear Geoff,

    Can you please help me with this.
    For a resort a want 50 outdoor speakers (20 Watt, 8 Ohm each) over 900 m .
    What Amplifier (Power) do i need and should i connect them parallel.

    • Hi Arthur,

      To connect 50 speakers together you need to wire them as a distributed speaker system.

      Basically, if you have the speakers already, you would need to add a transformer to each speaker. Depending upon how loud you need the system to be, you may only need 5 W or 10 W for each speaker.

      Have a read of the article above and let me know if you have more questions.


  16. hi Geoff,
    I need a advice on PA system, i got TOA 120 watts,100v line and a 4 ohms line amplifier but i want to use 4 ohms line with adastra 8 ohms 60 watts speakers. How many speakers i can use in total. it is a big hall about 300 people. Thanks.

    • Hi Atiq,

      If you connect speakers to the 4 ohm output of the amplifier, the minimum load impedance of the speakers can be 4 ohms. Two 8 ohms speakers connected in parallel will give you 4 ohms. Therefore you can connect just 2 of your speakers to the 4 Ohm output of the amplifier. Doing it this way, each of the two speakers will get 60 Watts each.

      If you wanted to connect more speakers to the amplifier, you will need to use the 100 volt output of the amplifier and connect transformers to each of the speakers – as outlined in the article above. Obviously, doing it this way the power to each speaker will be a lot less, but then you have more speakers and so they don’t need to be as powerful.

      Does this help?


  17. Hi Geoff.

    IN one Project a drawing is showing that the speakers loop/zone will be closed back to second amplifier, may be as redundancy, is it normal or recommended to do so? and what is the restriction to do so, may be the amplifier should be the same size,

    • I would not think it is normal to loop directly back to a second amplifier. If you want to use a second amplifier as a backup you would normally use a switch to select between the two amplifiers. It is possible to loop back to the same amplifier so that if the cable breaks, at least some of the speakers are still able to work.


  18. Thanks for your informative article, it really helped me understand and setup the ceilings speakers and amplifier I got from eBay in my café

    • Hi Luke,

      Thanks for letting me know. It is great to hear it has helped you.

      Well done to you for sorting it out on your own too.


  19. Hello,
    We currently have a 70v paging system that is 20+ years old. Sometimes it works, sometimes it doesn’t. That being said, we are exploring the possibility of replacing it. Right now, we currently have two Crown CTS600 amps, with 4 cable runs each (8 wires total) running to approximately 52 speakers. The amps were purchased used from eBay (please don’t ask me why). I want to install 2 brand new amplifiers, and run all new cable and speakers. Some of the runs I’m sure will exceed 200 feet. I’m looking at 8 new runs, with speakers installed along the line daisy chained together. Can you tell me if this will work? I’m looking at speakers that have built-in transformers, and 16 gauge wire. Any help you can provide is appreciated.
    Best Regards,

    • Hi Scott,

      You seem to have the basics worked out.

      It is possible, and quite common to have runs over 200 feet. EAW have a good calculator for determining the losses involved at different lengths and cable sizes. Once you play with it a bit it is quite useful. Change the number of speakers, cable length and tap setting in the 2nd top table. Also change the wire gauge to 16 across the top of the next table and you will see there is very little drop in output at each speaker.

      My other comment would be why change everything. The existing cabling and speakers may be fine. Perhaps you just need new amps – it will depend on the what the ongoing issues are and what fault-finding has been done.

      Hope this helps,



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