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I haven't read the entire RDH4 chapter on transformers but I'm tired of thinking about it and I have class in 6 hours so I thought I'd post and Steve can answer since it's probably about time for breakfast across the pond!
I'm fortunate to work in a lab with some really neat equipment so I brought 3 output transformers to work and spent some time on the HP 4192a low frequency impedance analyzer. The goal of my testing was to determine the low frequency response of some transformers.
I know that the reflected primary Z and L can be used to estimate the low end roll-off of a given transformer. To that effect I've measured the transformers. I can't find anything in RDH4 that says what frequency I should be measuring at!
example, a largish potted 5k:8/16 output TF from "audio development company" as measured on the HP4192A:
10Hz, 29.5H
20Hz, 24.3H
30Hz, 21.2H
40Hz, 19.3H
50Hz, 18.0H
60Hz, 17.0H
70Hz, 16.0H
80Hz, 15.2H
90Hz, 14.6H
100Hz, 14.1H
200Hz, 10.8H
500Hz, 9.3H
1kHz, 9.6H
You get the point. I have similar lists for the other two transformers. I'm not sure which one to plug into the formulas...and I started getting sick of it...engineering job plus full time school plus life means I can't do all of this thinking at the moment. Then it occurred to me...
I could connect my variac to a large power transformer (say an 800VCT unit) to produce a "plate signal" of 60Hz and connect it across the transformer primary and have a fixed resistance (load bank) connected to the transformer secondary. Measure the voltages in and out and turn up the juice a little at a time. When I hit the point where the secondary voltage isn't increasing I know the transformer has hit the wall, so to speak. When the Vsec is 50% of the expected value, that's the power level for -3dB, right?
Anyway, it's late and this post is eternal. Thanks, goodnight. Or good morning.
jamie
I'm fortunate to work in a lab with some really neat equipment so I brought 3 output transformers to work and spent some time on the HP 4192a low frequency impedance analyzer. The goal of my testing was to determine the low frequency response of some transformers.
I know that the reflected primary Z and L can be used to estimate the low end roll-off of a given transformer. To that effect I've measured the transformers. I can't find anything in RDH4 that says what frequency I should be measuring at!
example, a largish potted 5k:8/16 output TF from "audio development company" as measured on the HP4192A:
10Hz, 29.5H
20Hz, 24.3H
30Hz, 21.2H
40Hz, 19.3H
50Hz, 18.0H
60Hz, 17.0H
70Hz, 16.0H
80Hz, 15.2H
90Hz, 14.6H
100Hz, 14.1H
200Hz, 10.8H
500Hz, 9.3H
1kHz, 9.6H
You get the point. I have similar lists for the other two transformers. I'm not sure which one to plug into the formulas...and I started getting sick of it...engineering job plus full time school plus life means I can't do all of this thinking at the moment. Then it occurred to me...
I could connect my variac to a large power transformer (say an 800VCT unit) to produce a "plate signal" of 60Hz and connect it across the transformer primary and have a fixed resistance (load bank) connected to the transformer secondary. Measure the voltages in and out and turn up the juice a little at a time. When I hit the point where the secondary voltage isn't increasing I know the transformer has hit the wall, so to speak. When the Vsec is 50% of the expected value, that's the power level for -3dB, right?
Anyway, it's late and this post is eternal. Thanks, goodnight. Or good morning.
jamie
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