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#1
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dbx type II Tape Nose Reduction - DSP plugin
(cross posted in rec.audio.misc )
Hello, I am preparing to work on a software DSP plugin that will decode dbx Type II encoded tapes. So many people have tapes that were encoded with dbx type II, and there are so few hardware units floating around, and so I figured, why not? What I need are detailed specifications on dbx type II. Perhaps if I had the U.S. Patent numbers for the Model 222 or 224, I could use one of the many patent search services to likely get what I need. If anyone has detailed specifications and a schematic, that would be great! I plan to make this decoder available as a Winamp plugin for free. I had sent email to DBX Pro Support, and they tried to help, but just did not retain that information when that consumer division went out of business over 10 years ago. Thanks! TechnoMonster |
#2
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While you're waiting for the info, start working on an RMS level sensor. I
don't know the attack and release constants, however. |
#3
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TechnoMonster wrote:
I am preparing to work on a software DSP plugin that will decode dbx Type II encoded tapes. So many people have tapes that were encoded with dbx type II, and there are so few hardware units floating around, and so I figured, why not? Talk to Jamie at Plangent Technologies. He's working on the same sort of thing. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
#4
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Hi TM,
Please post when you get something working. I have a few old tapes I've transferred to hard disk that were done with DBX. It would be nice to be able to play back. Even if not perfect, the ability to play them back somewhat accurately would be useful. You probably already know all of this, but I was told way back when that DBX was a companding system that used a 2:1 ratio for compression during encode and expansion during playback. I was also told there was a hi frequency boost during encode that was inverted during playback. I don't know what that curve looks like. I'm guessing other people here can give more details that will at least get you going in the right direction. Good luck, and please keep me posted. Dean TechnoMonster wrote: (cross posted in rec.audio.misc ) Hello, I am preparing to work on a software DSP plugin that will decode dbx Type II encoded tapes. So many people have tapes that were encoded with dbx type II, and there are so few hardware units floating around, and so I figured, why not? What I need are detailed specifications on dbx type II. Perhaps if I had the U.S. Patent numbers for the Model 222 or 224, I could use one of the many patent search services to likely get what I need. If anyone has detailed specifications and a schematic, that would be great! I plan to make this decoder available as a Winamp plugin for free. I had sent email to DBX Pro Support, and they tried to help, but just did not retain that information when that consumer division went out of business over 10 years ago. Thanks! TechnoMonster |
#5
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One more thought - it might make sense to consider making a VSTi or DX
version of the plugin, as many people have multitrack tapes done with DBX. |
#6
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Hi TM,
Please post when you get something working. I have a few old tapes I've transferred to hard disk that were done with DBX. It would be nice to be able to play back. Even if not perfect, the ability to play them back somewhat accurately would be useful. You probably already know all of this, but I was told way back when that DBX was a companding system that used a 2:1 ratio for compression during encode and expansion during playback. I was also told there was a hi frequency boost during encode that was inverted during playback. I don't know what that curve looks like. I'm guessing other people here can give more details that will at least get you going in the right direction. Good luck, and please keep me posted. Dean TechnoMonster wrote: (cross posted in rec.audio.misc ) Hello, I am preparing to work on a software DSP plugin that will decode dbx Type II encoded tapes. So many people have tapes that were encoded with dbx type II, and there are so few hardware units floating around, and so I figured, why not? What I need are detailed specifications on dbx type II. Perhaps if I had the U.S. Patent numbers for the Model 222 or 224, I could use one of the many patent search services to likely get what I need. If anyone has detailed specifications and a schematic, that would be great! I plan to make this decoder available as a Winamp plugin for free. I had sent email to DBX Pro Support, and they tried to help, but just did not retain that information when that consumer division went out of business over 10 years ago. Thanks! TechnoMonster |
#7
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Hey, if you'd like me to loan you a dbx II decoder to play with, I'll be glad
to loan one to you, provided you pay for the shipping (both ways). Talk to me in email and we'll work something out. --MFW |
#8
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Marc Wielage wrote:
Hey, if you'd like me to loan you a dbx II decoder to play with, I'll be glad to loan one to you, provided you pay for the shipping (both ways). You _need_ to do this if you are developing a plug-in, because although you can model the dbx system as a simple compander (a first-order device whose current output is related only to the current input and not to any previous inputs), the reality of the actual box isn't so nice, and you may want to model some of the higher-order effects to help undo them. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
#9
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Bill, one further complication is that when recording in both dbx
systems (I and II), the signal was split at each input and pre-emphasis was applied to the two branches. Then an rms detector in the one branch was used to set the gain of the other branch. However, the pre-emphasis in the two branches wasn't the same--the high frequencies in the control branch were boosted more than they were in the main signal branch of the circuit. The dbx II system had less pre-emphasis in the control branch than dbx I so that in playback, there would be less gain error if the recording system had high-frequency response errors (e.g. due to head misalignment, less-than-optimal bias, or the use of slow-speed recording). --best regards |
#10
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Bill, one further complication is that when recording in both dbx
systems (I and II), the signal was split at each input and pre-emphasis was applied to the two branches. Then an rms detector in the one branch was used to set the gain of the other branch. However, the pre-emphasis in the two branches wasn't the same--the high frequencies in the control branch were boosted more than they were in the main signal branch of the circuit. The dbx II system had less pre-emphasis in the control branch than dbx I so that in playback, there would be less gain error if the recording system had high-frequency response errors (e.g. due to head misalignment, less-than-optimal bias, or the use of slow-speed recording). The first paragraph is correct, but overly complex. The second is only partly correct. These are the components of dbx processing when recording: 1. Treble boost is applied to the input signal. 2. The treble-boosted signal travels to both a VCA and an RMS level detector. 3. The RMS level sensor includes a bandbass filter (20-20K for type I, 30-15K for type II) and additional treble boost. The bandpass filter is supposed to reduce sensisitivity to level variations caused by the recorder attenuating the frequency extremes. (As it's applied only to the level sense, it has no effect on the system's frequency response -- unless you're recording single tones.) The extra treble boost is intended to make the level sensor more sensitive to transients. 4. The voltage from the level sensor controls the VCA. It must be pointed out that dbx is a single-band system. There is no way it can alter the spectral balance of any common musical signal, because errors show up as gain variations across the full audible spectrum. For dbx to exaggerate the recorder's response errors, you'd have to record a single instrument whose notes fell in the range of a non-flat region of the recorder's response curve. I found it amusing that magazines tested dbx-equipped decks with single frequencies, which is meaningless. This is even true (though to a lesser extent) with multiband systems. The "correct" way to test is with broadband noise that has a spectrum similar to acoustic music. By the way, I once dubbed "The King James Version" LP to a Nakamichi 700 II with both Dolby B and dbx II. Much to my surprise -- considering the large amount of treble boost the dbx applied -- with dbx I was able to push the record levels (as shown on the Nak's meters) much higher into the red before the sound became dull or distorted. I still don't understand that. |
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