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16th February 2004, 12:12 AM
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#101 |
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Account Disabled
Join Date: Apr 2003
Location: US
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taking sreten's advice, I am posting the schematic I simulated in multisim. here it is.
not much of a difference, other than that I used an input resistor, and an output resistor. the key thing that I didn't measure until after reading one of sreten's earlier posts is the output offset. As you can see, there is a 1.4mv positive offset on the inverting ends of the LTPs. edit: wanted to add that if I change R1 to 0ohm, and R3 to 22meg (effectively EVA's schematic), I get the same readings. edit 2: DC offset is: with 0ohm VAS emitter resistors: -217uv; with 1ohm VAS emitter resistors: 31uv; with 10ohm VAS emitter resistors: 910uv. with 100ohm VAS emitter resistors: 1.423mv. while the bases of non-invernting ends are firmly tied to 0v / ground. |
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16th February 2004, 12:21 AM
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#102 |
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diyAudio Member
Join Date: Nov 2003
Location: Brighton UK
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So what voltage gain do you get with R1 = 0ohm ?
And V3 has an output voltage ? (How does your simulator deal with the quandary ? V3 = 0 ? or V3 = V3 ? ) Its not a good idea to ask simulators such questions. (In Eva's original circuit the LTP pairs are forced to be current mirrors as Vbe's have to be equal. Not the real case.)  sreten.
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16th February 2004, 12:28 AM
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#103 | ||
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Account Disabled
Join Date: Apr 2003
Location: US
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Quote:
only if you could figure out how to drive such a load, Quote:
? |
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16th February 2004, 12:30 AM
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#104 | ||
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Account Disabled
Join Date: Apr 2003
Location: US
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Quote:
I feel for you. Quote:
maybe that's where the problem comes from,
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16th February 2004, 12:46 AM
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#105 |
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Account Disabled
Join Date: Apr 2003
Location: US
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the whole thing may work like this:
the system will change the DC offset. the DC offset will also change current on the two collector resistors: higher DC offset will decrease the current going through the upper collector resistor (R2) and increase the current going through the lower collector resistor. As voltage drop off R2 goes down, Q3 opens up less and decreases the DC offset. the process stops until the two VAS transistors reach about the same collector current. and the DC offset will then settle. the currents are likely to dependent on device characteristics more than resistor values -> not good for manufacturing. on the other hand, the process appears to be thermally stable: a decline in Q3's Vbe will increase its collector current, which increass the DC offset. that in turn will lower voltage drop off R2 to compensate for the Vbe drop on Q3. |
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16th February 2004, 03:05 PM
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#107 | |
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diyAudio Member
Join Date: Mar 2002
Location: Aveiro-Portugal
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Quote:
__________________
Jorge |
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16th February 2004, 07:35 PM
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#108 |
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diyAudio Member
Join Date: Nov 2003
Location: Brighton UK
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I've given the whole thing some thought and concluded the following :
For the double ended LTP and emitter degenerated VAS you choose your design currents. You then calculate the base voltage of the VAS asumming the design current of the VAS and use this and 1/2 the LTP current to set the LTP collector resistor. You then connect them together, the results will be near design values, hopefully. Compared to a single ended LTP and VAS : Each LTP pair cannot be balanced as accurately, but exact balance is not needed as the double ended nature of the circuit (which is balanced) cancels distortion the same way a near exactly balanced single ended LTP does. Given the balance of each LTP pair is not exact the actual VAS current is not exact, it cannot be set as accurately / predictably as in the single ended case. This on its own is not a big deal, but the thermal stability of the VAS current may be depending the biasing scheme used. sreten.
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16th February 2004, 08:04 PM
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#109 |
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diyAudio Member
Join Date: Oct 2003
Location: Near the sea
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What about adding a schottky diode in series with the base resistor of the VAS?
For so lower currents the schottky may be dropping only .15 to .20V Schottky diodes also have negative temperature coefficient on junction potential and after looking at some curves I think it may be enough to compensate the negative coefficient on the Vbe of the VAS I have to try it ... [had some small 1A schottkys lying around] |
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16th February 2004, 08:15 PM
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#110 |
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Account Disabled
Join Date: Apr 2003
Location: US
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sreten, I think you are right. The whole doesn't seem to be as calculatable as single LTP/VAS. I wonder how much variance there is in production amps using complementory ltp/vas.
thermal stability is not a problem as the VAS current drops when Vbe of VAS transistors drops. so it is self-stabilizing. what I observed is that there are always about 200mv of voltage drops on the degenerate resistors for VAS. Not sure what caused it but it is pretty consistent. it may be a useful thing is setting up this circuitry. |
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