Matching stepup to phono stage


If I use a moving coil stepup transformer (Quicksilver) before my phono stage (CJ Premier 15) do I keep the the CJ Premier 15 loading at 47K or do I change the CJ loading to the recommended loading of the catridge. The input impedance of the Stepup is 250 ohms.

Thanks,
Rich
rhbblb1
Actually Bent Audio has a great page and chart explaining this.

http://bentaudio.com/parts/tx103loadhow.html
Sorry, I didn't mean to talk down Bent Audio - John Chapman is a great guy who makes fantastic products. I just don't agree that it works to add resistors to step-ups to gain the desired load - from my experience with 8 or 9 different step-ups in various configurations with different carts and phonostages, it's always more desirable soundwise to get the load right by choosing the right step-up.

For a general discussion of loading, with formulae and online calculators, see Hagerman's page on the subject:

http://www.hagtech.com/loading.html

(Note: Hagerman also recommends varying the load with a resistor at the phonostage side - I've only done this once with a step-up, back when I had a Rogue 99, so I have less experience than with adding a resistor before the step-up. I'd still guess it's advantageous to simply choose the right step-up for your specific cartridge - keep it simple.)
You have gotten both incorrect advice and some that is just confusing.

It is very common to change the load by adjusting the input impedance of the phono stage, less common to load the input of the transformer. That's why most phono stages have provisions to change the impedance.

Your transformer doesn't have an input impedance of 250 ohms. That is probably what it gives you when you load it with the standard 47K. Do you know the gain of the stepup?

The impedance is determined by the the input impedance of the phono stage divided by the square of the turns ratio. Just like it transforms the voltage by making it larger, it also transforms the input impedance of the phono stage making it appear to be smaller. So it's not a combination of the 250 and the 47K.

It is very common to change the input impedance of the phono stage to get the load you want on the cartridge. To figure it out you need the turns ratio, or the gain since the ratio can be calculated from it.

You need to choose the right step-up transformer to present the recommended loading of the cartridge AND simultaneously give you the correct amount of gain.
This isn't going to work in real life. Normally you choose the gain you need and then adjust the input impedance of the phono stage to get the loading you want.

The impedance presented to your cartridge will be the combination of the 250 ohms of the step-up and the 47Kohms of your phono stage.
If it did have a 250 ohm resistor at the input of the transformer, the load would be the 250 in parallel with transformed phono stage input impedance, but I doubt this is the case.

I used a K&K Audio step-up with a Hagerman Trumpet. The step-up had a 10:1 ratio. Using 47k ohm resistors in the step-up in parallel with the Trumpets 47k ohms yielded 940 ohms
That math doesn't work. Two 47Ks in parallel is 23.5K which divided by (10 times 10) gives you 235 ohms. To get 940 you would have to put the 47Ks in series.
Herman,
I kind of figured out what you are saying. The Stepup has 23db of gain. I believe that would calculate into a turns ratio of 13.7. Thus, 13.7 X 13.7 = 188. 47,000 divided by (13.7 X 13.7) = 250. Is this correct?

Thanks,
Rich
That's right, but 23 dB is actually a turns ratio of 14.1. That still gives you a load of 235 ohms, close enough to call it 250.

Gain in dB = 20 times log of the Turns Ratio
23dB = 20 log TR
1.15 = log TR
inv log 1.15 = 14.1