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The Opposite Of A 10dB Pad - 1:3 tranny
"Alan Rutlidge iinet.net.au" rutlidge@NO_SPAM wrote in message
... An impedance matching transformer with a 1:68 impedance transformation ratio would be ideal and provide more than enough voltage increase to overcome the problem. Now all that is required is to source a suitable unit. Currently I am using the Shure A96F Line Matching Transformer as a switching station from the male XLR of the mike to the female stereo miniplug for the R-1's mic input. I am not experienced in reading specs for these devices, but here's some of the information provided with it. Understand that I have attempted to recreate the formatting WITHOUT invoking HTML formatting in my email client, since I am not sure whether this newsgroup accepts HTML formatting. Consequently there is a chance that the below may come out as so much indecipherable gibberish. Here goes: Impedance: Low impedance 600 ohms (supplied) or 150 ohms Medium impedance: 2500 ohms DC Resistance: Low Impedance: 600 ohms winding: 56 ohms 150 ohms winding: 28 ohms Voltage Ratio: 600 ohms 150 ohms Low Impedance to medium impedance: +6 db +12 db Maximum Recommended Input Levels Source Winding Maximum Impedance Being Driven Level 150 ohms 150 ohms .5 V 600 ohms 600 ohms 1.0 V 2500 ohms 2500 ohms 2.0 V If you are handy with a soldering iron (or know someone who is) and want make a unit for yourself a 600 ohms to 10 kohms tapped microphone transformer can be found here - http://www.altronics.com.au/index.as...=item&id=M0705 Specs exceed the microphone's capability. Connect your microphone across the red and green wires (600 ohm side) and the yellow and blue wires (10 kohm side) to the microphone input on the R1. This should give you a healthy voltage increase. If you need more output voltage try connecting the microphone across the red and black wires (300 ohm winding). XLR sockets and 1/8" line jacks can be obtained form the same source as well as suitable shielded cable and a neat little box to put it all in. The above might work very well for me. Unfortunately I am all thumbs at that stuff, and would probably end up in the emergency room. However you have given me a sort of crazy idea. What would happen if I take the low to high impedance converter I got and deliberately plugged it into the LOW impedance input (the mike input). Would I just blow out the mic input and be without the R-1 for a few months while they repaired it, would it probably simply result in a lot of clipping and distortion, or is there a chance that might be a solution? Cheers, Charles |
The Opposite Of A 10dB Pad - 1:3 tranny
"Charles H. Riggs, III" wrote in message
... However you have given me a sort of crazy idea. What would happen if I take the low to high impedance converter I got and deliberately plugged it into the LOW impedance input (the mike input). Would I just blow out the mic input and be without the R-1 for a few months while they repaired it, would it probably simply result in a lot of clipping and distortion, or is there a chance that might be a solution? Never mind; I tried it and the hum was godawful. Scratch that idea! Cheers, Charles |
The Opposite Of A 10dB Pad - 1:3 tranny
"Charles H. Riggs, III" wrote in message ... "Alan Rutlidge iinet.net.au" rutlidge@NO_SPAM wrote in message ... An impedance matching transformer with a 1:68 impedance transformation ratio would be ideal and provide more than enough voltage increase to overcome the problem. Now all that is required is to source a suitable unit. Currently I am using the Shure A96F Line Matching Transformer as a switching station from the male XLR of the mike to the female stereo miniplug for the R-1's mic input. I am not experienced in reading specs for these devices, but here's some of the information provided with it. Understand that I have attempted to recreate the formatting WITHOUT invoking HTML formatting in my email client, since I am not sure whether this newsgroup accepts HTML formatting. Consequently there is a chance that the below may come out as so much indecipherable gibberish. Here goes: Impedance: Low impedance 600 ohms (supplied) or 150 ohms Medium impedance: 2500 ohms DC Resistance: Low Impedance: 600 ohms winding: 56 ohms 150 ohms winding: 28 ohms Voltage Ratio: 600 ohms 150 ohms Low Impedance to medium impedance: +6 db +12 db Maximum Recommended Input Levels Source Winding Maximum Impedance Being Driven Level 150 ohms 150 ohms .5 V 600 ohms 600 ohms 1.0 V 2500 ohms 2500 ohms 2.0 V If you are handy with a soldering iron (or know someone who is) and want make a unit for yourself a 600 ohms to 10 kohms tapped microphone transformer can be found here - http://www.altronics.com.au/index.as...=item&id=M0705 Specs exceed the microphone's capability. Connect your microphone across the red and green wires (600 ohm side) and the yellow and blue wires (10 kohm side) to the microphone input on the R1. This should give you a healthy voltage increase. If you need more output voltage try connecting the microphone across the red and black wires (300 ohm winding). XLR sockets and 1/8" line jacks can be obtained form the same source as well as suitable shielded cable and a neat little box to put it all in. The above might work very well for me. Unfortunately I am all thumbs at that stuff, and would probably end up in the emergency room. However you have given me a sort of crazy idea. What would happen if I take the low to high impedance converter I got and deliberately plugged it into the LOW impedance input (the mike input). Would I just blow out the mic input and be without the R-1 for a few months while they repaired it, would it probably simply result in a lot of clipping and distortion, or is there a chance that might be a solution? Cheers, Charles Hi Charles, The Shure A96F Line Matching Transformer ( http://www.shure.com/pdf/userguides/...ories/a96f.pdf ) should work okay. Setting the A96F to the 150 ohm option will give you the largest voltage increase, however if it works okay on the standard setting of 600 ohms just leave it at the factory default. You will not blow up your R1 recorder using this device. The voltage levels on the specifications only refer to the maximum voltages the transformer can handle before the core and windings become saturated and distortion occurs. They do not indicate the actual voltages on the windings. Depending on the wiring of the microphone input socket on the R1, you may need to cut the wire in the tip / ring / sleeve jack plug as shown in the diagram on page 2 of the pdf guide in the link above. Cheers, Alan |