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Audio 100V signal to line level
All,
I am doing some testing with an audio PA system that has the output of 100V (rms). What I am trying to do is take this 100V(rms) and bring it down to an audio line level of about 280 mV (rms). I am doing this with a resistor divider. 1.) An image of 100V (rms) input signal measured on oscilloscope is below: http://s1070.photobucket.com/user/Mr...bcqkm.jpg.html 2.) I am then dividing this down to ~280mV with a resistor divider, 375k and 1k. Here is the image of the signal from the resistor divider: http://s1070.photobucket.com/user/Mr...6hhbp.jpg.html As you can see the signal here looks extremely distorted on the oscilloscope! I am not sure if this is what really is happening or if it is an artifact of the oscilloscope. 3.) We have some audio equipment from the company Audio Precision here and with their equipment the signal looks much cleaner. See image below: http://s1070.photobucket.com/user/Mr...9km9s.jpg.html 4.) There are some transformer options out there to take a 100V signal and bring it to a line level but I wanted to see if we could do this with a less expensive resistor divider solution. Thank you from any thoughts you have on this. -Robert |
Audio 100V signal to line level
schreef in bericht ... All, I am doing some testing with an audio PA system that has the output of 100V (rms). What I am trying to do is take this 100V(rms) and bring it down to an audio line level of about 280 mV (rms). I am doing this with a resistor divider. 1.) An image of 100V (rms) input signal measured on oscilloscope is below: http://s1070.photobucket.com/user/Mr...bcqkm.jpg.html 2.) I am then dividing this down to ~280mV with a resistor divider, 375k and 1k. Here is the image of the signal from the resistor divider: http://s1070.photobucket.com/user/Mr...6hhbp.jpg.html As you can see the signal here looks extremely distorted on the oscilloscope! I am not sure if this is what really is happening or if it is an artifact of the oscilloscope. 3.) We have some audio equipment from the company Audio Precision here and with their equipment the signal looks much cleaner. See image below: http://s1070.photobucket.com/user/Mr...9km9s.jpg.html 4.) There are some transformer options out there to take a 100V signal and bring it to a line level but I wanted to see if we could do this with a less expensive resistor divider solution. Thank you from any thoughts you have on this. -Robert Something seems to oscillate... As mentioned already, speakers (with or without transformers) are partly inductive loads. As the amplifier will be designed to anticipate for it, a pure resistive load may cause the problem. So adding inductors may help. Connecting a line to ground may cause a ground loop which in turn may cause the oscillation. Replacing the low-value resistor by a small 1:1 transformer may work. petrus bitbyter |
Audio 100V signal to line level
"M Philbrook" wrote in message ... In article , says... All, I am doing some testing with an audio PA system that has the output of 100V (rms). What I am trying to do is take this 100V(rms) and bring it down to an audio line level of about 280 mV (rms). I am doing this with a resistor divider. 1.) An image of 100V (rms) input signal measured on oscilloscope is below: http://s1070.photobucket.com/user/Mr...bcqkm.jpg.html 2.) I am then dividing this down to ~280mV with a resistor divider, 375k and 1k. Here is the image of the signal from the resistor divider: http://s1070.photobucket.com/user/Mr...6hhbp.jpg.html As you can see the signal here looks extremely distorted on the oscilloscope! I am not sure if this is what really is happening or if it is an artifact of the oscilloscope. 3.) We have some audio equipment from the company Audio Precision here and with their equipment the signal looks much cleaner. See image below: http://s1070.photobucket.com/user/Mr...9km9s.jpg.html 4.) There are some transformer options out there to take a 100V signal and bring it to a line level but I wanted to see if we could do this with a less expensive resistor divider solution. Thank you from any thoughts you have on this. -Robert you have what looks to me like parasitic RF being introduced in your network. Not knowing how your termination are being made is a big issue, too. in the old days, and still today that is, we use parasitic chokes. Those are carbon composite low value R's wrapped with a few turns of magnetic wire and each end attached to the leg of the R. This inturn captures RF on the surface and shorts it via the R, while passing through the orginal signal. Another note. don't use inductive type Rs You could put a small cap across the network. That's mainly about next stage input capacitance shunting the treble. Doesn't take a lot of input capacitance for Xc to be low relative to the dropper end of the network. With 100V coming in, I'd put some resistance in series with that small capacitor so the treble notes don't overload the input. If there's any suspicion of the next stage being a bit fragile - clamp diodes aren't too much of an extragance. |
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