Tubeactive wrote: Using an LCR for judging the apparent or implied fidelity of output and interstage transformers. In Primary Inductance mode, the test leads are connected across the primary of the transformer, with no connections on the secondary. This is very important, as any added resistance across the secondary will indefinitely load down the primary Henries reading. The higher the Henries, the better, concerning Primary Inductance.

Leakage Inductance can be tested with the same test lead connections, but the secondary gets shorted, thus reading the leakage reactances in Henries. A good transformer can read 20 to more than 100 H with an unloaded secondary. Shorting the secondary leads, if that transformer now reads under 100 mH, depending on the impedances and primary inductance, this indicates a good likelihood of high fidelity. Of course, under 50 mH of leakage will be much better. The HiFi opts. could read over 40H on primary inductance, under 20mH leakage inductance; some of the best are under 10mH leakage! I would chart out the leakage readings on all the speaker and line output taps, for comparison and quality judgements...

A word of caution is in order, to avoid misleading results. When measuring transformer in an amp, in circuit, the amp needs to be unpowered, of course. Just as important, the feedback loops may need to be unconnected. If there is a feedback connection from a speaker tap or a tertiary winding, the Primary Inductance Henries reading will be artificially low. If the feedback resistor goes to a preceding stage's cathode, across the cathode resistor, maximum H readings will be low and thus misleading...

Public Address and Sound Reinforcement grade interstages and opts will read closer to 10 or less Henries on the primary. However, their leakage inductance can read incredibly low, some under 20 mH! This would indicate a serious lack of low bass, but could imply good high freq extension. Bi-amping would be a decent application for such a transformer, used in the midrange/treble amp...

Some opts will flash OL with certain digital meters, while measuring their primaries. The inductive kickback fools the meter in question. A hookup to a trusted LCR can enlighten quickly. Unpower the amp, discharge the power supply caps safely, remove the speaker load and then test the Primary Inductance. Note that if you check each half of the primary winding, the Henries will read 1/4 of the full primary reading. This is a good indicator of the opt transformer primary having balanced windings.

Maxhifi wrote: A four inch radio speaker probably has a low frequency resonance of about 200Hz, so the 120Hz reading is probably representative of the nominal impedance of the speaker since it is far away from resonance. The 1kHz reading is higher due to impedance rising with frequency.