Kana: It is rather difficult to replace a toroid with an EI. First of all, most toroids are relatively smaller transformers, so an EI of the proper rating won't fit in the alloted space. As mentioned, the core size of a toroid is typically measurably smaller even though it is only a few percent more efficient than an EI of similar power ratings.
On top of that, the added weight due to the increased mass of the larger IE core may overload the chassis, causing physical damage. This is not to mention that the use of an EI requires more attention to circuit design and component lay-out within the chassis. As such, this type of modification isn't a "drop in" in most cases.
What i have done is selected amps that work best in given situations i.e. optimized the components for the jobs at hand. That is, amps that are typically used to drive "tough loads" with large dynamic loads make use of EI type transformers and / or toroidals that make are unusually large in size.
Regardless of the type of transformers used, all the components have been bolstered with greater quantity of power supply reserve with increased filtration. I've slowly been going through them component by component and replacing the stock rectifiers / diodes with higher quality devices, which further lowers the noise floor and reduces transient hash.
In order to help bolster the performance of all of the components in any of my given systems, they are all fed from a central source that is filtered by 400 lbs worth of EI isolation transformers. These transformers are rated at -145 dB's of filtration. On top of that, certain components are further isolated individually in the systems with smaller EI isolation transformers. This is done in order to minimize the "nasty leakage" that these components tend to feed back into the AC system, which could further contaminate the other components after the main filtering was already achieved.
Taking that a step further, the power cords used are of a design that is of a low inductance characteristic with a geometry that is naturally resistant to RF and EM interference. Since power cords are wire and wire can act as both an incoming and outgoing antenna, i didn't want to have to worry about that either.
What one can do to get around the lack of space inside of a toroidally based product, especially in an amp, is to "stack" another identical toroid on top of the original. The amplifier can be converted to "dual mono" ( if it isn't already ), which increases the core capacity, reduces the potential for saturation and lowers the impedance of the power supply on the whole. All of this adds up less draw on the transformer, which also reduces transformer induced noise and allows more clean power as needed. By separating the channels, crosstalk between channels is improved and dynamics should improve markedly.
We've used this approach on the four amps that my brother runs, which are toroidally based and had smaller core sizes. This has resulted in better performance in every aspect, so it was worth it as far as he's concerned. Sean
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On top of that, the added weight due to the increased mass of the larger IE core may overload the chassis, causing physical damage. This is not to mention that the use of an EI requires more attention to circuit design and component lay-out within the chassis. As such, this type of modification isn't a "drop in" in most cases.
What i have done is selected amps that work best in given situations i.e. optimized the components for the jobs at hand. That is, amps that are typically used to drive "tough loads" with large dynamic loads make use of EI type transformers and / or toroidals that make are unusually large in size.
Regardless of the type of transformers used, all the components have been bolstered with greater quantity of power supply reserve with increased filtration. I've slowly been going through them component by component and replacing the stock rectifiers / diodes with higher quality devices, which further lowers the noise floor and reduces transient hash.
In order to help bolster the performance of all of the components in any of my given systems, they are all fed from a central source that is filtered by 400 lbs worth of EI isolation transformers. These transformers are rated at -145 dB's of filtration. On top of that, certain components are further isolated individually in the systems with smaller EI isolation transformers. This is done in order to minimize the "nasty leakage" that these components tend to feed back into the AC system, which could further contaminate the other components after the main filtering was already achieved.
Taking that a step further, the power cords used are of a design that is of a low inductance characteristic with a geometry that is naturally resistant to RF and EM interference. Since power cords are wire and wire can act as both an incoming and outgoing antenna, i didn't want to have to worry about that either.
What one can do to get around the lack of space inside of a toroidally based product, especially in an amp, is to "stack" another identical toroid on top of the original. The amplifier can be converted to "dual mono" ( if it isn't already ), which increases the core capacity, reduces the potential for saturation and lowers the impedance of the power supply on the whole. All of this adds up less draw on the transformer, which also reduces transformer induced noise and allows more clean power as needed. By separating the channels, crosstalk between channels is improved and dynamics should improve markedly.
We've used this approach on the four amps that my brother runs, which are toroidally based and had smaller core sizes. This has resulted in better performance in every aspect, so it was worth it as far as he's concerned. Sean
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