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#1
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INA103 differential stage
My idea is to use a INA103 but without the second differential stage as a mic-pre. One possibility would be of course to replace the differential stage it with another OP or a discrete setup but my question goes in another direction: Since I want the output to be symmetrical anyway wouldn't it be possible to amplify each phase separately with a single OP and use that as a symmetrical output? Sounds a little to simple, I know. Am I missing something here? Thanks, Rob |
#2
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"Robert Angst" My idea is to use a INA103 but without the second differential stage as a mic-pre. One possibility would be of course to replace the differential stage it with another OP or a discrete setup but my question goes in another direction: Since I want the output to be symmetrical anyway wouldn't it be possible to amplify each phase separately with a single OP and use that as a symmetrical output? Sounds a little to simple, I know. Am I missing something here? ** No - all you need is two op-amps. Eg. a NE5532 dual op-amp configured as two inverters with 4.7 kohm input and feedback resistors. Balanced low noise in - balanced line level out. ............ Phil |
#3
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** No - all you need is two op-amps. Ok, another thougt: if I connect the symetrical output of the two OPs into a single ended input (e.g. RNC) with + hot, - and shield grounded, I will loose the entire benefit of the differential construction between mic and output. If I'd leave the shield unconnected it should work. Is this correct? I sure want to be fully balanced but want to keep compatibility with single ended gear as well. Do I in that case have to go the classic route: first differential amp and then splitting it up again in two differential pairs? In that case I could include an insert jack for my RNC fairly easy.. As an OP I would use an LT1469/8. I plugged them in my SX202 (as suggested in this NG) and realy like the results. |
#4
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"Robert Angst" ** No - all you need is two op-amps. ** You trimmed out my name and everything but for one line. That is very bad manners. ............ Phil |
#5
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Phil Allison schrieb:
"Robert Angst" ** No - all you need is two op-amps. ** You trimmed out my name and everything but for one line. That is very bad manners. ........... Phil Sorry, won't happen again. |
#6
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"Robert Angst" Phil Allison ** No - all you need is two op-amps. ** You trimmed out my name and everything but for one line. That is very bad manners. Sorry, won't happen again. ** OK. As for your additional questions: 1. Shorting one side of a balanced line to ground is bad practice. 2. The majority of the CMRR of the INA103 mic-preamp comes from the first (differential) stage - a common mode signal gets only unity gain. 3. The vast majority of external hum field rejection obtained with balanced *mic* lines is due to the two wires inside the cable being twisted. Sorry if this sounds like heresy. It isn't. .......... Phil |
#7
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Phil Allison schrieb:
As for your additional questions: 1. Shorting one side of a balanced line to ground is bad practice. Sure, I am just trying to make the box more idiot proof for 'emergency' situations when only a TS cable is at hand (or the person who built it isn't). 2. The majority of the CMRR of the INA103 mic-preamp comes from the first (differential) stage - a common mode signal gets only unity gain. Maybe I am not completely aware of how the input stage of an instrumentation amp works. Is it possible to benefit from the balanced first stage when I use only one of the differential outputs and the other is grounded? 3. The vast majority of external hum field rejection obtained with balanced *mic* lines is due to the two wires inside the cable being twisted. That sounds like even if differential input is compromised it's still good enough for these 'emergency' cases. Sorry if this sounds like heresy. It isn't. ......... Phil I guess I'll build it the way you suggested and use proper cables if I want to compress while tracking. That should make a nice two-chip pre. Thanks Rob |
#8
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Robert Angst wrote:
Maybe I am not completely aware of how the input stage of an instrumentation amp works. Is it possible to benefit from the balanced first stage when I use only one of the differential outputs and the other is grounded? Don't actually connect the other output to ground, but the first stage of a classic instrumentation amp has whatever differential gain is defined by the gain-defining resistor, and a common mode gain of 1 always. So for all gains above 1 you'll get some common mode rejection, equal to the differential gain. I don't know why you wouldn't want to use the second stage of the INA103, which is a differencing amp with unity gain and CMR as good as resistor tolerances will allow. The main limitation of a whole mic preamp constructed that way is that the output stage of the INA103 isn't the best thing for driving arbitrary loads on the end of possibly long cables. (but then the input stage isn't any better...) -- Anahata -+- http://www.treewind.co.uk Home: 01638 720444 Mob: 07976 263827 |
#9
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Maybe I am not completely aware of how the input stage of an instrumentation amp works. Is it possible to benefit from the balanced first stage when I use only one of the differential outputs and the other is grounded? Yes you get the full benefit of hum rejection of balanced input realtive to the mic cable regardless of how you connect the output of the pre-amp. If you connect the output of the pre-amp as single ended, then you get no benefit of hum rejection at the output cable but that does not detract fomr the hum rejection at the balanced input. Think of it as a new signal source starting a new trip. The INA103 has a single ended output. Mark |
#10
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Phil Allison wrote:
"Robert Angst" My idea is to use a INA103 but without the second differential stage as a mic-pre. One possibility would be of course to replace the differential stage it with another OP or a discrete setup but my question goes in another direction: Since I want the output to be symmetrical anyway wouldn't it be possible to amplify each phase separately with a single OP and use that as a symmetrical output? Sounds a little to simple, I know. Am I missing something here? ** No - all you need is two op-amps. Eg. a NE5532 dual op-amp configured as two inverters with 4.7 kohm input and feedback resistors. Balanced low noise in - balanced line level out. Phil ! Are you feeling unwell ? He said a mic pre ! That configuration will be noisy as hell. Using two op-amps like that destroys CMRR too - unless you use say 0.1% tolerance resistors. The long tailed pair input has far better inherent common mode rejection. Graham |
#11
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"Pooh Bear" Phil Allison wrote: "Robert Angst" My idea is to use a INA103 but without the second differential stage as a mic-pre. One possibility would be of course to replace the differential stage it with another OP or a discrete setup but my question goes in another direction: Since I want the output to be symmetrical anyway wouldn't it be possible to amplify each phase separately with a single OP and use that as a symmetrical output? Sounds a little to simple, I know. Am I missing something here? ** No - all you need is two op-amps. Eg. a NE5532 dual op-amp configured as two inverters with 4.7 kohm input and feedback resistors. Balanced low noise in - balanced line level out. Phil ! Are you feeling unwell ? He said a mic pre ! That configuration will be noisy as hell. ** Try reading the context - dickhead. The INA103 allows access on pins 5 & 12 to the differential stage's outputs. http://focus.ti.com/lit/ds/symlink/ina103.pdf The NE5532 would merely buffer those outputs. ........... Phil |
#12
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Phil Allison wrote: "Pooh Bear" Phil Allison wrote: "Robert Angst" My idea is to use a INA103 but without the second differential stage as a mic-pre. One possibility would be of course to replace the differential stage it with another OP or a discrete setup but my question goes in another direction: Since I want the output to be symmetrical anyway wouldn't it be possible to amplify each phase separately with a single OP and use that as a symmetrical output? Sounds a little to simple, I know. Am I missing something here? ** No - all you need is two op-amps. Eg. a NE5532 dual op-amp configured as two inverters with 4.7 kohm input and feedback resistors. Balanced low noise in - balanced line level out. Phil ! Are you feeling unwell ? He said a mic pre ! That configuration will be noisy as hell. ** Try reading the context - dickhead. The INA103 allows access on pins 5 & 12 to the differential stage's outputs. http://focus.ti.com/lit/ds/symlink/ina103.pdf The NE5532 would merely buffer those outputs. Ok, I follow you now. From what he said ( about simply amplifying each leg of the mic input separately ) I got a different picture of what you meant. Why not buffer those points using a voltage follower configuration though ? Slightly less noisy without those 4k7s. Graham |
#13
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"Pooh Bear" Phil Allison wrote: ** No - all you need is two op-amps. Eg. a NE5532 dual op-amp configured as two inverters with 4.7 kohm input and feedback resistors. Balanced low noise in - balanced line level out. Phil ! Are you feeling unwell ? He said a mic pre ! That configuration will be noisy as hell. ** Try reading the context - dickhead. The INA103 allows access on pins 5 & 12 to the differential stage's outputs. http://focus.ti.com/lit/ds/symlink/ina103.pdf The NE5532 would merely buffer those outputs. Ok, I follow you now. From what he said ( about simply amplifying each leg of the mic input separately ) I got a different picture of what you meant. Why not buffer those points using a voltage follower configuration though ? Slightly less noisy without those 4k7s. ** Are you feeling well - Pooh ?? The reason for preferring unity gain inverting is that it produces less HD - since there is no common mode voltage at the inputs. The self noise from a unity gain inverter, using an NE 5532 and 4.7 kohms is about 3 uV rms ( 1 uV from the resistor, 1 uV from the op-amp & noise gain of 2 ). Relative to a 1 volt output level, this is a s/n ratio of 110 dB - exceeding the spec for the INA103. The noise from the preceding op-amp is gonna be more in any case - even at unity gain the INA103 is speced at 10 uV output noise ( 70 nV rt Hz) . ............ Phil |
#14
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Phil Allison wrote:
"Pooh Bear" Phil Allison wrote: ** No - all you need is two op-amps. Eg. a NE5532 dual op-amp configured as two inverters with 4.7 kohm input and feedback resistors. Balanced low noise in - balanced line level out. Phil ! Are you feeling unwell ? He said a mic pre ! That configuration will be noisy as hell. ** Try reading the context - dickhead. The INA103 allows access on pins 5 & 12 to the differential stage's outputs. http://focus.ti.com/lit/ds/symlink/ina103.pdf The NE5532 would merely buffer those outputs. Ok, I follow you now. From what he said ( about simply amplifying each leg of the mic input separately ) I got a different picture of what you meant. Why not buffer those points using a voltage follower configuration though ? Slightly less noisy without those 4k7s. ** Are you feeling well - Pooh ?? The reason for preferring unity gain inverting is that it produces less HD - since there is no common mode voltage at the inputs. That's an interesting assertion. I recall that being said in the 70s. The reason being supposed 'common mode failure' of the input pair. For a while I followed the 'inverting is best' suggestion but eventually abandoned it since it generally leads to increased noise. I see no sign of this issue with modern op-amps. The self noise from a unity gain inverter, using an NE 5532 and 4.7 kohms is about 3 uV rms ( 1 uV from the resistor, 1 uV from the op-amp & noise gain of 2 ). Relative to a 1 volt output level, this is a s/n ratio of 110 dB - exceeding the spec for the INA103. The noise from the preceding op-amp is gonna be more in any case - even at unity gain the INA103 is speced at 10 uV output noise ( 70 nV rt Hz) . I'm just getting very fussy over *all* noise contributions these days. As you correctly point out, even 4k7 makes a significant difference to the overall noise of a 5532. Graham |
#15
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On Tue, 16 Aug 2005 17:04:38 +0200, Robert Angst
wrote: ** No - all you need is two op-amps. Ok, another thougt: if I connect the symetrical output of the two OPs into a single ended input (e.g. RNC) with + hot, - and shield grounded, I will loose the entire benefit of the differential construction between mic and output. If I'd leave the shield unconnected it should work. Is this correct? I sure want to be fully balanced but want to keep compatibility with single ended gear as well. Do I in that case have to go the classic route: first differential amp and then splitting it up again in two differential pairs? I was thinking there was something 'bad' about your original idea of keeping the positive and negative signals separate, and now you've mentioned it. Another reason(s) to combine them is to cancel out any common-mode signal from the input. Passing on such a common-mode signal reduces the maximum signal (if the signal path can handle 15V peaks and your common-mode noise is 10V peak, your biggest signal is 5V before clipping. It also relies on the next device having good CMRR to cancel common-mode stuff, which if the next device has an unbalanced input, it obviously won't have. You absolutely need the differential-conversion stage (with highly=precise, matched resistors to get good CMRR) for a mic preamp, as the mic signal could be a few millivolts and the common-mode signal can be several volts. To turn the situation around so that the mic signal is much larger instead, you need to cancel the common signal with a very high precision. The instrumentation amplifier configuration helps by giving (up to about) 1,000 times gain for differential signals, and only a gain of 1 for common-mode signals, but you still need the differential stage to cancel out the common-mode signals. In that case I could include an insert jack for my RNC fairly easy.. As an OP I would use an LT1469/8. I plugged them in my SX202 (as suggested in this NG) and realy like the results. ----- http://www.mindspring.com/~benbradley |
#16
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"Ben Bradley" You absolutely need the differential-conversion stage (with highly=precise, matched resistors to get good CMRR) for a mic preamp, ** Bull**** - the input stage rejects common mode by the same factor as it has gain. as the mic signal could be a few millivolts and the common-mode signal can be several volts. ** What planet are you living on ?????????? Don't just make things up - dickhead. To turn the situation around so that the mic signal is much larger instead, you need to cancel the common signal with a very high precision. ** There is virtually ZERO common mode signal with a microphone &cable in normal circumstaces. The instrumentation amplifier configuration helps by giving (up to about) 1,000 times gain for differential signals, and only a gain of 1 for common-mode signals, but you still need the differential stage to cancel out the common-mode signals. ** Like a record stuck in a groove - isn't he ?? ............... Phil |
#17
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"Pooh Bear" Phil Allison wrote: The reason for preferring unity gain inverting is that it produces less HD - since there is no common mode voltage at the inputs. That's an interesting assertion. I recall that being said in the 70s. The reason being supposed 'common mode failure' of the input pair. For a while I followed the 'inverting is best' suggestion but eventually abandoned it since it generally leads to increased noise. I see no sign of this issue with modern op-amps. ** Modern op-amps ( eg 5534, 5532, TL072) ets were all designed in the 1970s. Nothing has changed with them - ****head. ........... Phil |
#18
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Phil Allison wrote:
"Pooh Bear" Phil Allison wrote: The reason for preferring unity gain inverting is that it produces less HD - since there is no common mode voltage at the inputs. That's an interesting assertion. I recall that being said in the 70s. The reason being supposed 'common mode failure' of the input pair. For a while I followed the 'inverting is best' suggestion but eventually abandoned it since it generally leads to increased noise. I see no sign of this issue with modern op-amps. ** Modern op-amps ( eg 5534, 5532, TL072) ets were all designed in the 1970s. I know and I also suspect that the 'common mode failure ' was more typical of 741 types. Nothing has changed with them - ****head. Can it with the ****head crap will you. It's getting seriously lame. Graham |
#19
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"Pooh Bear" Nothing has changed with them - ****head. Can it with the ****head crap will you. It's getting seriously lame. ** Then ** STOP ** ****ing being one !!! All you are doing is mindless TROLLING and NETSTALKING me. **** OFF !!! .......... Phil |
#20
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Phil Allison wrote:
"Pooh Bear" Nothing has changed with them - ****head. Can it with the ****head crap will you. It's getting seriously lame. ** Then ** STOP ** ****ing being one !!! All you are doing is mindless TROLLING and NETSTALKING me. If you think I'm trolling or stalking you - lol - then you clearly have a serious mental problem. I'm contributing to a thread in a *public* newsgroup. Get over it. Graham |
#21
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"Pooh Bear" wrote in message ... For a while I followed the 'inverting is best' suggestion but eventually abandoned it since it generally leads to increased noise. I see no sign of this issue with modern op-amps. It's there, although more with FET-input op-amps than bipolars like the 5532. Try high-frequency IM tests on an OPA-604 or 2604 (same design, dual package) in non-inverting mode, first with a low-impedance source, then with something like 25k source impedance. More distortion. Peace, Paul |
#22
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Graham Stevenon - Studiomaster's biggest Enemy Phil Allison wrote: Nothing has changed with them - ****head. Can it with the ****head crap will you. It's getting seriously lame. ** Then ** STOP ** ****ing being one !!! All you are doing is mindless TROLLING and NETSTALKING me. If you think I'm trolling or stalking you - lol - then you clearly have a serious mental problem. I'm contributing to a thread in a *public* newsgroup. Get over it. ** You will STOP posting your mindless garbage under every post I put up. That is criminal behaviour. That is netstalking. The one with metal issues is YOU - Graham Stevenon of Studiomaster UK. ............. Phil |
#23
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Paul Stamler wrote: "Pooh Bear" wrote in message ... For a while I followed the 'inverting is best' suggestion but eventually abandoned it since it generally leads to increased noise. I see no sign of this issue with modern op-amps. It's there, although more with FET-input op-amps than bipolars like the 5532. Try high-frequency IM tests on an OPA-604 or 2604 (same design, dual package) in non-inverting mode, first with a low-impedance source, then with something like 25k source impedance. More distortion. More THD with the high Z source ? Ah well, I keep signal impedances low too ! ;-) Graham |
#24
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"Pooh Bear" wrote in message ... Paul Stamler wrote: "Pooh Bear" wrote in message ... For a while I followed the 'inverting is best' suggestion but eventually abandoned it since it generally leads to increased noise. I see no sign of this issue with modern op-amps. It's there, although more with FET-input op-amps than bipolars like the 5532. Try high-frequency IM tests on an OPA-604 or 2604 (same design, dual package) in non-inverting mode, first with a low-impedance source, then with something like 25k source impedance. More distortion. More THD with the high Z source ? IME that's how it usually works. Ah well, I keep signal impedances low too ! ;-) ...but not too low. ;-) |
#25
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Phil Allison wrote: Graham Stevenon - Studiomaster's biggest Enemy Phil Allison wrote: snip Phil's insults All you are doing is mindless TROLLING and NETSTALKING me. If you think I'm trolling or stalking you - lol - then you clearly have a serious mental problem. I'm contributing to a thread in a *public* newsgroup. Get over it. ** You will STOP posting your mindless garbage under every post I put up. I do *not* post every single time you do. Just take a look and see. It does happen often though since we both have similar expertise in the audio area - and in turn you often reply to one of my posts. Entirely normal behaviour in a newsgroup ! That is criminal behaviour. I suggest you go look up the meaning of criminal. You just make yourself look stupid by posting such daft claims. That is netstalking. If I wanted to netstalk you, trust me you'd know about it. I don't have that mindset nor the interest, inclination, time, money whatever anyway ! The one with metal issues is YOU - Graham Stevenon of Studiomaster UK. Lol @ metal. Thankfully I'm able to shrug off such nonsence. I only wish you'd grow up and get over your persecution complex. Come on Phil, I'm sure you're capable of better than this ? Graham |
#26
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Graham Stevenon - Net Stalker
** You will STOP posting your mindless garbage under every post I put up. That is criminal behaviour. I suggest you go look up the meaning of criminal. ** I suggest you go straight into hell. If I wanted to netstalk you, trust me you'd know about it. ** You are net stalking me and I do know about it. Stop or will contact your employers. I promise that will not be the slightest bit funny. ............ Phil |
#27
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#28
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Mike Rivers schrieb:
This is why the single-ended so-called "impedance balanced" output configuration is so popular. It doesn't matter if you short the non-driven side to ground because there's no signal on it. Much cheaper than a transformer, simpler than a cross-coupled see-saw output stage, and good enough for even some of the finest microphones. That would get me going with just one op for the differencial stage and two matched series resistors. But the way I understand it, this setup will result in half the output amplitude if fed into a symmetrical input. Is that correct? Rob |
#29
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"Pooh Bear" wrote in message
... Paul Stamler wrote: "Pooh Bear" wrote in message ... For a while I followed the 'inverting is best' suggestion but eventually abandoned it since it generally leads to increased noise. I see no sign of this issue with modern op-amps. It's there, although more with FET-input op-amps than bipolars like the 5532. Try high-frequency IM tests on an OPA-604 or 2604 (same design, dual package) in non-inverting mode, first with a low-impedance source, then with something like 25k source impedance. More distortion. More THD with the high Z source ? More THD, especially at high frequencies and low gain, so the input sees a high-level signal, and more high-frequency IMD. Ah well, I keep signal impedances low too ! ;-) But sometimes you can't, at which point some interesting juggling becomes necessary. Peace, Paul |
#31
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Robert Angst wrote:
My idea is to use a INA103 but without the second differential stage as a mic-pre. One possibility would be of course to replace the differential stage it with another OP or a discrete setup but my question goes in another direction: This works very well, and it reduces the total distortion considerably. Most of the actual distortion of the INA103 comes from the output stage. But if you're going to do this, you might as well just skip the INA103 altogether and just go with a discrete transistor array for the front end. Since I want the output to be symmetrical anyway wouldn't it be possible to amplify each phase separately with a single OP and use that as a symmetrical output? Sounds a little to simple, I know. Am I missing something here? Yes, but you don't have an instrumentation amp any more. Do you care about CMRR? If you don't really care about CMRR, using a single op-amp is just fine. If you do care about CMRR, the guys at THAT have just produced a chip that is a pin-compatible replacement for the SSM2017. Samples are just now coming out. I can't tell you if it performs as well as the data sheet yet, but once I get back from Colorado and get another dozen higher priority (ie. better-paying) projects out of the way I hope to give the things a try. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
#32
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#33
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On Tue, 16 Aug 2005 14:26:00 +0200, Robert Angst
wrote: My idea is to use a INA103 but without the second differential stage as a mic-pre. One possibility would be of course to replace the differential stage it with another OP or a discrete setup but my question goes in another direction: Since I want the output to be symmetrical anyway wouldn't it be possible to amplify each phase separately with a single OP and use that as a symmetrical output? Sounds a little to simple, I know. Am I missing something here? You really, really want to get your common-mode rejection up-front and believable, preferably before any electronics (but that costs money), and trusting to your electronics to linearly handle the potentially large common mode signal is foolish, not to put too fine a point on it. In too many real-world situations *huge* common-mode signals can bite one's butt. Don't trust your reputation to wishful thinking and Internet wanking. Wanna be professional? Think tough; think military; think medical. And don't put too much confidence in certain... well.... Good fortune, Chris Hornbeck |
#34
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Scott Dorsey schrieb:
snip But if you're going to do this, you might as well just skip the INA103 altogether and just go with a discrete transistor array for the front end. I read your postings about this approach but I guess I don't have experience and time to design something like this from scratch. Now that my SX202 is done I get into mic-tinkering again as well (neg. supply for fig.8) snip If you do care about CMRR, the guys at THAT have just produced a chip that is a pin-compatible replacement for the SSM2017. Samples are just now coming out. I can't tell you if it performs as well as the data sheet yet, but once I get back from Colorado and get another dozen higher priority (ie. better-paying) projects out of the way I hope to give the things a try. --scott Actually the 103 was intendet to be my workaround for that. I am trying to replace an SSM2017 and I was quite pleased with what I read in the datasheet of the new THAT1512. Even lower noise than the THAT1510. Trouble is I would have to buy 20 pieces or pay 20 EUR shipping if I buy just two. I haven't found a single comment on its performance yet, but I would realy like to try it. I'll look around a little more.. Rob |
#35
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Robert Angst wrote:
Scott Dorsey schrieb: snip But if you're going to do this, you might as well just skip the INA103 altogether and just go with a discrete transistor array for the front end. I read your postings about this approach but I guess I don't have experience and time to design something like this from scratch. Now that my SX202 is done I get into mic-tinkering again as well (neg. supply for fig.8) snip If you do care about CMRR, the guys at THAT have just produced a chip that is a pin-compatible replacement for the SSM2017. Samples are just now coming out. I can't tell you if it performs as well as the data sheet yet, but once I get back from Colorado and get another dozen higher priority (ie. better-paying) projects out of the way I hope to give the things a try. --scott Actually the 103 was intendet to be my workaround for that. I am trying to replace an SSM2017 and I was quite pleased with what I read in the datasheet of the new THAT1512. Even lower noise than the THAT1510. Trouble is I would have to buy 20 pieces or pay 20 EUR shipping if I buy just two. I haven't found a single comment on its performance yet, but I would realy like to try it. I'll look around a little more.. You're really not being very sensible. You're virtually using only the input differential pair on the INA103 - kind of a waste ot time. A pair of 10 cent 2SA1084s is probably quieter. Graham |
#36
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#37
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SSJVCmag wrote:
"Phil Allison" wrote: ****head. ****head crap ** STOP ** ****ing being one !!! Phil I don't expect answer of any cogency but... What the hell IS it with this ubiquitous ersatz epithetical scatalogical lingual farting of yours? Just Stop it. Thanks Catching on includes realizing you are talking to a turd in an unflushable bowl. It ain't gonna stop stinking and telling it to do so is a waste of breath. -- ha |
#38
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On 8/18/05 1:48 PM, in article ,
"hank alrich" wrote: SSJVCmag wrote: "Phil Allison" wrote: ****head. ****head crap ** STOP ** ****ing being one !!! Phil I don't expect answer of any cogency but... What the hell IS it with this ubiquitous ersatz epithetical scatalogical lingual farting of yours? Just Stop it. Thanks Catching on includes realizing you are talking to a turd in an unflushable bowl. It ain't gonna stop stinking and telling it to do so is a waste of breath. It was a possibly regrettable self-indulgent thesauretical moment. I'll figure my penance out later. |
#39
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Phil Allison wrote: Graham Stevenon - Net Stalker snip If I wanted to netstalk you, trust me you'd know about it. ** You are net stalking me and I do know about it. Stop or will contact your employers. Oh please do. They're not strictly my employers btw. They're a client. I promise that will not be the slightest bit funny. I expect that the Studiomaster guys will find it very funny indeed actually. They could do with a laugh. I've already apprised them of your 'bohemian' behaviour way back btw. Now stop making hollow threats. Graham |
#40
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Graham Stevenon - Net Stalker Oh please do. They're not strictly my employers btw. They're a client. ** As I suspected - you an posturing, unemployed fake. I promise that will not be the slightest bit funny. I expect that the Studiomaster guys will find it very funny indeed actually. ** Then you have no idea what I intend. Now stop making hollow threats. ** Fair warning is no threat. Go find out the law - you pig ignorant ass. .............. Phil |
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