M
murrayatuptown
New member
Hello:
I hope this is interesting to someone other than me. I hope I can pick up some people here who can give some thought to the impedance questions below.
I have been experimenting with ways to improve horrible audio in digital camera video. I have recorded audio at live performances and only from the back of the room where overload was prevented did I get usable audio. I also have recorded with a separate Tascam DR-08 but have had great difficulty resyncing the removed audio. I have a software method that works, but it has terrible sync, and no responses on the recommended forum or from the software author who offered his address.
So I've moved back to trying to record decent audio in-camera.
After 3 or so approaches to the 'Linkwitz mod' on the internal electret mic capsule, I finally added a jack and separate 9V battery power. I have accomplished overload-free audio, at least so far, but have the problem of omnidirectional pickup...in a noisy bar, coffee shop, or restaurant, the chatter of patrons is really loud. An iPhone that impressed me from back of the room overloads up close (roughly 10 feet from instruments), and the camera does not.
It seemed ridiculous earlier, but since I have an outboard electret wired to a jack, I may as well add an XLR socket next. I have several percussion dynamic mics that are reasonably broad in response, but tend toward lower sensitivity. I have two that are -56 dBV and -66 dBV. This is quite a bit lower than any electret condenser capsule. One of the candidate mics is a cardioid and the other a supercardioid. I bought them because they were cheap. The low sensitivity and odd mounting bracket also make them 'orphans' for conventional vocal/guitar mics needs.
What I plan to do is probably capacitor couple the signal so I am certain I don't apply DC to the mic element. Despite the general rule that phantom power won't both a dynamic mic, there is little conventional about my wiring. For me to end up with a foolproof scenario that works with both the electret or the dynamic, I am going to play it safe.
One mic is nominally 300 ohms, and the other 600 ohms. The camera input impedance as best I can estimate (Thevenin calculations) is dominated by the bias resistors...With the additional external resistors I used for the electret, I have about 1.8 k looking into the camera. Based on this, I used a pair of 50 uF electrolytic caps back-to-back for 25 uF. I did this because I didn't want to shop for non-polar electrolytics, and the polarity of DC
across the mic coupling cap does reverse if the 9V external battery is connected and the camera is turned off. For now, the electret mic JFET is wired as a source follower with 2.2 k resistor...I'm not where I intended to be but am heading down a different path based on the noise and directional pickup.
My main question is if I feed a 300 or 600 ohm dynamic mic into a 1.8 k input through the 25 uF capacitor, do I need to 'load' the dynamic mic with a 300 or 600 ohm resistor, or do I really want something higher than that anyway since I don't need to maximize signal 'power'.
Extending my thoughts to other options, I thought I might use a low-to-hi-z XLR-1/4" transformer - to solve a number of 'problems'...I think...the step-up would solve some of the sensitivity difference, but mismatch the mic stepup transformer's secondary looking into 1.8 k camera impedance. I have taken enough risk dissecting the camera...changing the internal bias resistor is too risky. This may be a problem for the dynamic mic, but it is what it is.
Next thing if results are still good, a small mixer feeding a 14:1 DI box would allow me to adjust the level going into the camera.
The small mixer has phantom power so I could eliminate the battery, wiring and external bias/coupling horror stuck on the side of the camera...it gets a lot of freaked-out responses and will probably never be able to travel in an airport again, unless I like TSA attention. I'm afraid the DI box may be going the wrong direction impedance-wise because I still have a relatively low-Z mixer output heading into the DI stepdown transformer...it may not be too happy feeding 1.8 k either.
So, anyway, if you don't think this is insane and care to reflect on the impedance concerns I've expressed, I would appreciate hearing your thoughts...maybe what is the best option, regardless of mess or inconvenience.
If you DO think it's insane, oh well. That has never stopped me before. Pushing past the 'why bother?' issues is opening up other things I might never have gotten around to trying.
A separate topic might be the challenge of syncing external video in software.
Even if I end up with low levels, it's better than overload. I have exported audio from a video, saved the video with NO audio, post-processed the audio in Audacity, and re-muxed it into the video with usable results. At least I had compatible audio & video formats and knew up front they would 'fit' the original timing. It's frustrating to have external-source audio grossly out-of-sync with the video despite trimming to the same length within 10 milliseconds, and having the software time-shift settings ignored or overridden by some unseen parameter.
If anyone has their own questions instead of answers to mine, I guess join in!
Maybe I am the only one who would do this instead of buying another camera, Zoom or whatever. Can't help it...
Thanks
I hope this is interesting to someone other than me. I hope I can pick up some people here who can give some thought to the impedance questions below.
I have been experimenting with ways to improve horrible audio in digital camera video. I have recorded audio at live performances and only from the back of the room where overload was prevented did I get usable audio. I also have recorded with a separate Tascam DR-08 but have had great difficulty resyncing the removed audio. I have a software method that works, but it has terrible sync, and no responses on the recommended forum or from the software author who offered his address.
So I've moved back to trying to record decent audio in-camera.
After 3 or so approaches to the 'Linkwitz mod' on the internal electret mic capsule, I finally added a jack and separate 9V battery power. I have accomplished overload-free audio, at least so far, but have the problem of omnidirectional pickup...in a noisy bar, coffee shop, or restaurant, the chatter of patrons is really loud. An iPhone that impressed me from back of the room overloads up close (roughly 10 feet from instruments), and the camera does not.
It seemed ridiculous earlier, but since I have an outboard electret wired to a jack, I may as well add an XLR socket next. I have several percussion dynamic mics that are reasonably broad in response, but tend toward lower sensitivity. I have two that are -56 dBV and -66 dBV. This is quite a bit lower than any electret condenser capsule. One of the candidate mics is a cardioid and the other a supercardioid. I bought them because they were cheap. The low sensitivity and odd mounting bracket also make them 'orphans' for conventional vocal/guitar mics needs.
What I plan to do is probably capacitor couple the signal so I am certain I don't apply DC to the mic element. Despite the general rule that phantom power won't both a dynamic mic, there is little conventional about my wiring. For me to end up with a foolproof scenario that works with both the electret or the dynamic, I am going to play it safe.
One mic is nominally 300 ohms, and the other 600 ohms. The camera input impedance as best I can estimate (Thevenin calculations) is dominated by the bias resistors...With the additional external resistors I used for the electret, I have about 1.8 k looking into the camera. Based on this, I used a pair of 50 uF electrolytic caps back-to-back for 25 uF. I did this because I didn't want to shop for non-polar electrolytics, and the polarity of DC
across the mic coupling cap does reverse if the 9V external battery is connected and the camera is turned off. For now, the electret mic JFET is wired as a source follower with 2.2 k resistor...I'm not where I intended to be but am heading down a different path based on the noise and directional pickup.
My main question is if I feed a 300 or 600 ohm dynamic mic into a 1.8 k input through the 25 uF capacitor, do I need to 'load' the dynamic mic with a 300 or 600 ohm resistor, or do I really want something higher than that anyway since I don't need to maximize signal 'power'.
Extending my thoughts to other options, I thought I might use a low-to-hi-z XLR-1/4" transformer - to solve a number of 'problems'...I think...the step-up would solve some of the sensitivity difference, but mismatch the mic stepup transformer's secondary looking into 1.8 k camera impedance. I have taken enough risk dissecting the camera...changing the internal bias resistor is too risky. This may be a problem for the dynamic mic, but it is what it is.
Next thing if results are still good, a small mixer feeding a 14:1 DI box would allow me to adjust the level going into the camera.
The small mixer has phantom power so I could eliminate the battery, wiring and external bias/coupling horror stuck on the side of the camera...it gets a lot of freaked-out responses and will probably never be able to travel in an airport again, unless I like TSA attention. I'm afraid the DI box may be going the wrong direction impedance-wise because I still have a relatively low-Z mixer output heading into the DI stepdown transformer...it may not be too happy feeding 1.8 k either.
So, anyway, if you don't think this is insane and care to reflect on the impedance concerns I've expressed, I would appreciate hearing your thoughts...maybe what is the best option, regardless of mess or inconvenience.
If you DO think it's insane, oh well. That has never stopped me before. Pushing past the 'why bother?' issues is opening up other things I might never have gotten around to trying.
A separate topic might be the challenge of syncing external video in software.
Even if I end up with low levels, it's better than overload. I have exported audio from a video, saved the video with NO audio, post-processed the audio in Audacity, and re-muxed it into the video with usable results. At least I had compatible audio & video formats and knew up front they would 'fit' the original timing. It's frustrating to have external-source audio grossly out-of-sync with the video despite trimming to the same length within 10 milliseconds, and having the software time-shift settings ignored or overridden by some unseen parameter.
If anyone has their own questions instead of answers to mine, I guess join in!
Maybe I am the only one who would do this instead of buying another camera, Zoom or whatever. Can't help it...
Thanks
