Drive an audio transformer from an AOP. Good or bad idea?

GroupDIY Audio Forum

Help Support GroupDIY Audio Forum:

This site may earn a commission from merchant affiliate links, including eBay, Amazon, and others.
Of course, there is nothing in the academic definition of an opamp that prevents it, or make it particularly suitable to a specific task.
Driving a xfmr implies a few constraints, such as current capability commensurate with the xfmr characteristics and output expectations. Low offset is to be considered, since it can result in doing without teh dreaded output capacitor.
Is it a good idea to do without the last output capacitor before transforming?
Couldn't even the slightest current in the transformer generate noise?
 
Is it a good idea to do without the last output capacitor before transforming?
Couldn't even the slightest current in the transformer generate noise?

I don't think noise is the issue with dc / transformer ? Tell me if I'm wrong here - not particularly a analogue audio (yes - that's the correct spelling 😊) tx bod although have used a few in DIY interface boxes and that has worked out well 🙂
 
Is it a good idea to do without the last output capacitor before transforming?
Couldn't even the slightest current in the transformer generate noise?
DC current into xfmr does not result in noise, but rather in possible distortion.
My output stages combined absence of coupling capacitor with a global NFB from an auxiliary winding. As a result whatever distortion resulting from the very low DC current was cancelled by global NFB.
 
Transformers offer:
+Galvanic Isolation,
+Noise free gain,
+Bandwidth limiting.

- Costly,
- Size,
- Weight,
- Magnetic field susceptibility (double shield, orientation, and location reduces this).
Cost is the major obstacle, otherwise all good.
 
Transformers offer:
+Galvanic Isolation,
+Noise free gain,
+Bandwidth limiting.

- Costly,
- Size,
- Weight,
- Magnetic field susceptibility (double shield, orientation, and location reduces this).
Cost is the major obstacle, otherwise all good.
You forgot distortion.
 
Interesting thread.

Transformers don't add anything because they provide step up or down of voltage with equivalent step down or up of current. Ignoring losses for simplicity, the voltage multiplied by the current on the primary winding must be the same as that on the secondary. In reality, transformers only add losses.

Thus how you drive a transformer rather depends upon the load connected to the "output" or secondary of the transformer. It's perfectly possible to drive a small audio transformer with just an op amp, although you may find the finished circuit's capability to drive a complex load - for example a long piece of cable - isn't what you'd hoped for. In the output amplifiers in Neve desks (and indeed the same was true in Audix desks) Rupert Neve made a huge play of "driving the transformers with small power amplifiers"; at least, I think that was his wording in a somewhat lengthy interview. The reason for doing that was to preserve the desk's sound quality as much as they possibly could when the mixer moved from the lab into a real studio or outside broadcast setting.

Audix desks used something like an NE5534 driving a complementary pair of medium power transistors which at the time might have been BC301/BC303. I don't recall what components Neve used although that isn't really the point.

What I'm saying is that the load presented to the transformer secondary (the long piece of cable, the cascaded inputs, the mismatched impedance, etc.) is effectively passed back through its primary to whatever is driving the transformer. This makes the circuit driving the transformer critical and perhaps the article originally mentioned missed out the wordy explanations and went straight to the punchline!
 
Transformers offer:
+Galvanic Isolation,
+Noise free gain,
+Bandwidth limiting.

- Costly,
- Size,
- Weight,
- Magnetic field susceptibility (double shield, orientation, and location reduces this).
Cost is the major obstacle, otherwise all good.
+ perfect balancing and unbalancing of the signal (if the transformer is well designed)
 
Transformers don't add anything because they provide step up or down of voltage with equivalent step down or up of current. Ignoring losses for simplicity, the voltage multiplied by the current on the primary winding must be the same as that on the secondary. In reality, transformers only add losses.

Not really. Whilst the "noise free gain" is in some ways not completely true since there a corresponding increase in source impedance (approx square of turns/gain ratio) and the effect of that depends on the following stage - hence optimised transformers for a given case.
But in most cases - ie where power transfer is not the objective - the trading of current for voltage is not an issue. Voltage transfer is the point. So yes - transformers lose power - since no physical implementation is 100% efficient - but in most instances that is not important or relevant.
 
Transformers don't add anything because they provide step up or down of voltage with equivalent step down or up of current. Ignoring losses for simplicity, the voltage multiplied by the current on the primary winding must be the same as that on the secondary. In reality, transformers only add losses.
You forgot LF Distortion. To combat this, Calrec/Lundahl had special circuits and in this Millenium, AP have one too.

I've designed mini power amps to drive line level transformers at Calrec but for test gear. In my time, the broadcast mixing desks used the circuit in the Lundahl application note.

I've never figured out if Ken Farrar dreamt it up before Lundahl or was it the other way round. :)
 
You forgot LF Distortion. To combat this, Calrec/Lundahl had special circuits and in this Millenium, AP have one too.:)
The problem with this circuit is that the current sense resistor must follow the primary resistance variations with temperature to provide optimum distortion compensation.
In the AP output, it is done by including in the transformer a special uncoupled winding made of the same material as the primary.
My choice of a tertiary winding makes this unnecessary, and the circuit is not more complex..
 

Latest posts

Back
Top