So where does one use this?
By arnoldc, shot with K750i at 2007-07-08
I was given two pairs, the other pair is TRW UTC W-786 with the same winding specs...
An externally hosted image should be here but it was not working when we last tested it.
By arnoldc, shot with K750i at 2007-07-08
I was given two pairs, the other pair is TRW UTC W-786 with the same winding specs...
Not a hybrid telecom tranny but high quality made. Restricted LF resp implies speechband response i.e telecom isolated line apps. hermetically sealed against moisture- typ in telecom.
15dbm into 600 ohm is around 4 volts rms. Try using it at lower levels for better audio response v.s thd. The give-away is relatively low proof voltage but for telecom was an over generous spec. Obviously if it reaches 10Khz then leakage inductance must be quite low. Give it a whirl....
richj
15dbm into 600 ohm is around 4 volts rms. Try using it at lower levels for better audio response v.s thd. The give-away is relatively low proof voltage but for telecom was an over generous spec. Obviously if it reaches 10Khz then leakage inductance must be quite low. Give it a whirl....
richj
Try driving it with significantly lower source impedances than the rated 150/600 ohms and you'll probably find that the LF extension improves considerably.
Keep levels low to avoid saturation and linearity issues in the core. (say 1Vrms)
Hopefully leakage inductance is low enough that it may get you significantly beyond 10kHz - note that the lower source impedance may worsen HF response if leakage inductance is the dominant loss factor at high frequencies, but will improve it if the losses are mainly capacitive.
Keep levels low to avoid saturation and linearity issues in the core. (say 1Vrms)
Hopefully leakage inductance is low enough that it may get you significantly beyond 10kHz - note that the lower source impedance may worsen HF response if leakage inductance is the dominant loss factor at high frequencies, but will improve it if the losses are mainly capacitive.
The 300hz - 10,000hz bandwidth is most likely what was called for in the Mil. Spec. written for this type of transformer. You will probably find that it is in fact wider in bandwidth, especially since it was made by Freed. I have some Freed output transformers (10K - 250ohms) that were military surplus with a similar specification that actually measured 5hz to 50khz +or- 3dB.
John
John
I was thinking if I can use this transformer to drive a 45...
That is, no driver tube, just the transformer and 45.
Do I connect 3 & 2 together, so my input is 4 (+) and 1 (-) then I connect 6 to the grid of the 45 and 5 to ground?
-or-
Input is 2 (+) and 1 (-), then short 6 & 7 and 8 goes to the 45 grid and 5 to ground?
That is, no driver tube, just the transformer and 45.
Do I connect 3 & 2 together, so my input is 4 (+) and 1 (-) then I connect 6 to the grid of the 45 and 5 to ground?
-or-
Input is 2 (+) and 1 (-), then short 6 & 7 and 8 goes to the 45 grid and 5 to ground?
Hi Arnold,
Sorry to burst your bubble, it won't work as a driver for the 45 as you need about 80Vpp with a plate voltage of 250V to drive one to full output. This transformer configured as 150:600 will give you a paltry 6dB of gain, not to mention that at 40Vpp on the input transformer (14Vrms) the transformer itself will not be linear..
You could use a 600:20K transformer and this would necessitate about 5V rms on the input to do the job, again not a very good fit. Cmiller would be multiplied by 33 presenting the driver circuit with a significant capacitive load as well.
Sorry to burst your bubble, it won't work as a driver for the 45 as you need about 80Vpp with a plate voltage of 250V to drive one to full output. This transformer configured as 150:600 will give you a paltry 6dB of gain, not to mention that at 40Vpp on the input transformer (14Vrms) the transformer itself will not be linear..
You could use a 600:20K transformer and this would necessitate about 5V rms on the input to do the job, again not a very good fit. Cmiller would be multiplied by 33 presenting the driver circuit with a significant capacitive load as well.
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