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    Help with boom box modification

    Hi, this is more of a project help request than a troubleshooting question. I hope I can post it here.

    I have a W-King D8 Bluetooth boom box which I'd like to modify with some external speaker output jacks and some buttons to switch the internal speakers on and off.

    From factory the specs of the boom box are:

    -Power Input: DC 5V
    -Speaker Output Power: 2 x 25W ( confirmed by Youtube channel Hartdegen review as 12.5W RMS per channel)
    -Drivers:
    -2 x Woofer, 70mm, 10Ω, 70mm,15W
    -2 X Tweeter, 8Ω, 30mm,10W x 2
    -Frequency Response: 60Hz - 20kHz
    -Battery Type: Li-ion ( 2 x 4000mAh)
    -Battery Voltage: 7.4V ( I measured 8v)
    -True Wireless Stereo (TWS): Support
    -Technology: BT4.2, A2DP, AVRCP, HSP, HFP.
    https://cdn.shopify.com/s/files/1/02...g?v=1557078219

    -The measured resistance at each amplifier output (amp side, speakers disconnected) is 1.2 million ohms, if that is relevant.

    As can be seen from diagram 1, the tweeters have a resistor in parallel creating a passive high-pass filter I believe.

    Here are the circuit diagrams, first the speaker diagram from factory, and secondly the diagram of the modification I'd like to make.

    Factory:
    Diagram 1.
    Factory.jpg
    https://www.badcaps.net/forum/attach...1&d=1638647535

    And here with my modification:
    Diagram 2.
    Mod1.jpg
    https://www.badcaps.net/forum/attach...1&d=1638647535


    I have put my doubts and questions in bold. As you can see, I have added into the diagram:

    1. Jacks to connect to external speakers.
    2. A higher level high pass filter function on each side (HPF #3 and #4), within which you can see that the factory high-pass HPF #1 and #2 are also nested.
    3. Switches 1 and 4, which (I hope) allow the built in speakers to be switched into the passive high pass filter configuration which I have added , using capacitors 2 and 3. This could be handy when connecting to external speakers which can better handle the bass part of the audio. For calculating the value of capacitors 2 and 3 in these added HPFs, I have considered the added external speakers (connected through the jacks) to be the 'resistor', and that this external speaker nominally has an impedance of 4 ohms (regarding this I have some questions below).
    4. Switches 3 and 4, which allow the built-in speakers to be turned off entirely (eg. when I want only external speakers to be used).

    In my modification diagram (factory.jpg), C3 and C4 are 132uF because I'm trying to create a HPFs on each side to block low signal to SP2 and SP3 and that's the value I get for calculating a cut-off value of 300 Hz, according to the formula fc= 1/(2πRC). I use R=4 because I am working on the basis of an ohms ratings for the connected external speaker of 4 ohms. I believe this external speaker becomes a load in parallel with the filtered drivers for the drivers (eg. SP1 and SP), acting like the resistor in the typical HPF filter circuits, like the one I have included.

    Regarding the HP filter, typical diagrams and explanations are that a resistor is always necessary in parallel with the load (in this case a speaker through which passes filter audio), sometimes with a connection to ground. Eg:

    Diagram 3.
    Highpass withgound.jpg
    https://www.badcaps.net/forum/attach...1&d=1638647535

    Am I right in thinking that in fact an extra resistor is not always necessary for a filter like this to work, as the driver itself acts as an inductor and resistance in high pass filters with drivers in circuits like, for example, in this book, which shows the simplest type of HPF?:
    Diagram 4.
    simplestHPF.jpg
    https://www.badcaps.net/forum/attach...1&d=1638647535

    Among other explanations of why a resistor is included in such filter circuits, I have read that 'it is to avoid 'thump' when connecting a load, and to allow a steady state at all times' (+ capacitor capacitor always able to discharge) . However, I am not concerned about an initial 'thump' when connecting a speaker. Also I don't see why this 'steady state', or continually being able to discharge/charge is necessary or advantageous. Actually I see that as a disadvantage potentially, as the amplifier/battery power is being left to drain away through such a resistor completing the circuit (?), even when the external speaker is not connected.
    I also see explanations indicating that a resistor helps prevent current leaks to ground, as in the picture above with ground connection. However, as it is a portable speaker in this case, there is no ground connection, so why would a resistor be necessary there to prevent current leakage to ground?

    Another explanation I've read is that "if you want to predict the filter's performance you need to know how much resistance is in series with the signal. A theoretical source with zero impedance will not be affected by the capacitor. If the signal is coming from something which has significant output impedance, then an additional resistor may not be needed."

    Regarding that explanation, I DO know the resistance which is in series with the signal, (4ohms - not a theoretical 0 ohms), so why the need for an additional resistor in parallel with it?


    I also have the following questions:

    I figure that the addition of capacitors 3 and 4 will continuously affect the cutoff frequency of HPF#1 and #2 (factory installed HPFs), which filter the signal to speakers 1 and 4, because the resistance of the parallel 'resistor' each sees will vary. I figure this because, taking HPF#3 for example, the 'resistor' it sees when speaker 5 is connected and switch 1 is open will no longer be just speaker 2, but the combined resistance of speaker 2, capacitor 3, and speaker 5 all in parallel. Thus the 'resistor' of HPF#1 will vary continuously as the frequency of the signal into capacitor 3 changes (the changing audio signal). Perhaps it will also be affected slightly by varying amounts of back EMF produced by speakers 2 and 5? How much is all this likely to affect the filtered output of speaker 1 in this scenario?
    EMF: https://www.edn.com/loudspeaker-oper...voltage-drive/
    https://mynewmicrophone.com/the-comp...-8%CF%89-more/

    Will typical 3.5 mm audio jacks be able to handle the current flowing through speakers 5 and 6? I also have phono plugs, but there isn't much space to work with inside the enclosure part where the electronics are, so I'd like to go with smallest components if possible. I'm also not sure what rating the switches would have to meet. When S1 and S2 are closed and SP5 is connected, I have calculated that theoretically the peak current through switch 1, switch 2, and jack 1 (when all the signal is above the cut-off frequencies), would be I=V/R = 7.4v / (1/((1/8Ω)+(1/10Ω)+(1/4Ω)) = 3.515a. This is ignoring any back EMF induced in the speakers (if indeed this is a real issue).

    I notice the rating for switches is often higher when used in 110 Volts circuits than when the same switch is used in a 240v circuit. Is this something to do with the rating being partly determined by the power (P=IV), not just the current flow through the component?

    Am I right in thinking capacitor 3 will do nothing (remain infinite resistance) when switch 1 is closed?

    Thanks for your explanations, corrections, suggestions, and possible additional ideas/functionalities that might be useful and could be added while the box is open. :-+
    Attached Files
    Last edited by Califauna; 12-04-2021, 01:57 PM.

    #2
    Re: Help with boom box modification

    I personally do not think that you can modify this way you are talking about

    I personally think you can modify it by putting a DTDP switch but the external speakers need to be the same ohm value and the same configuration that they are in now because you might fry the amp board doing what you have in mind

    These are my thoughts on what you have in mind now what you have in mind might work but for how long is the real question

    I have seen some of these amplifier boards just stop working for no reason at all I have on seen a few that will just keep working no matter what you do with them and I have had both experience with them

    Now if you want more running time then put in higher capacity battery pack and good quality batteries this would be an upgrade that I would do have done in the past I have a small boom box that I did this too and runs almost three times longer than the battery that was in it
    Last edited by sam_sam_sam; 12-04-2021, 02:47 PM.
    9 PC LCD Monitor
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    30 Desk Top Switching Power Supply
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    6 18v Lithium Battery Power Boards for Tool Battery Packs
    1 XBox 360 Switching Power Supply and M Board
    25 Servo Drives 220/460 3 Phase
    6 De-soldering Station Switching Power Supply 1 Power Supply
    1 Dell Mother Board
    15 Computer Power Supply
    1 HP Printer Supply & Control Board * lighting finished it *


    These two repairs where found with a ESR meter...> Temp at 50*F then at 90*F the ESR reading more than 10%

    1 Over Head Crane Current Sensing Board ( VFD Failure Five Years Later )
    2 Hem Saw Computer Stack Board

    All of these had CAPs POOF
    All of the mosfet that are taken out by bad caps

    Comment


      #3
      Re: Help with boom box modification

      Originally posted by sam_sam_sam View Post
      I personally do not think that you can modify this way you are talking about
      Why?

      Comment


        #4
        Re: Help with boom box modification

        Is there a more suitable Badcaps sub-forum for this post?

        Comment


          #5
          Re: Help with boom box modification

          if you wire external speakers wire them in series with the ones in the unit then you won't overload it

          Comment

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