I just saw this in the New at Mouser category...
Hammond 140UEX 1:1 input transformer
It's kind of expensive at $67.50 in ones and twos. Very close to Jensen and Cinemag pricing. Hammond says 20Hz-20kHz within 1dB. 882k impedance and 36.5H pri and sec at 1kHz, 1V. Only 5mW max (?). Still, looks interesting...
Datasheet: http://www.hammondmfg.com/pdf/140UEX.pdf
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Hammond 140UEX 1:1 input transformer
It's kind of expensive at $67.50 in ones and twos. Very close to Jensen and Cinemag pricing. Hammond says 20Hz-20kHz within 1dB. 882k impedance and 36.5H pri and sec at 1kHz, 1V. Only 5mW max (?). Still, looks interesting...
Datasheet: http://www.hammondmfg.com/pdf/140UEX.pdf
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Good little transformers, cheaper than Jensen et al, beause of the power limit. There's a budget (non-hifi) line Hammond has in the $20 range, but these are OK for the price. Good for inputs.
Ain't it, though? But I don't understand the pricing. $67.50 each is about the same as a Jensen JT11P-1 or JT11P-4-1, is it not?
Jensen Transformers Jensen JT-11P-1 Line Input Transformer Audio Hum & Noise Eliminators at Markertek.com
Jensen Transformers Jensen JT-11P4-1-1 Line Input Transformer Impedance Matching Transformer at Markertek.com
The Jensen spec says "Maximum 20 Hz input level 1% THD, = +16 dBu"
The Hammond says "Output Power = 10.0 dbm"
Apples vs Oranges?
Yeah, probably.
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Jensen Transformers Jensen JT-11P-1 Line Input Transformer Audio Hum & Noise Eliminators at Markertek.com
Jensen Transformers Jensen JT-11P4-1-1 Line Input Transformer Impedance Matching Transformer at Markertek.com
The Jensen spec says "Maximum 20 Hz input level 1% THD, = +16 dBu"
The Hammond says "Output Power = 10.0 dbm"
Apples vs Oranges?
Yeah, probably.
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I was surprised to see they are using a nickel core, this might not be a bad transformer at the price.
Ah ha! That would explain the pricing. I guess I missed that, so thanks for pointing that out.
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Isn't (10dBm) 10mW equal to only 0.7071 Vrms? If so, then that is pretty useless for most audio amp inputs.
http://www.markimicrowave.com/menus/data/power to voltage.pdf
http://www.markimicrowave.com/menus/data/power to voltage.pdf
0dBm is 1 milliwatt, usually into a load of 600 ohms which equates to the usual 0.775 volts. 10dBm is 10 milliwatss which is 2.45 volts rms - typical hi fi maximum level.
Unfortunately, Hammond fail to specify the impedance for their 10dBm measurement and where just a voltage level is meant it is more usual to use dBu. +10dBu is 2.45V rms whatever the impedance.
This is a 10K:10K transformer so maybe they mean 10dBm into 10K. Now 10V rms across a 10K resistor gives 1mA current and 10mW power. So +10dBm into 10K is 10V rms which is +22dBu, rather closer to the Jensen spec.
It really disappoints me when manufacturers are so woolly in their definitions.
Cheers
Ian
The metal shielding can is also mu metal according to the Hammond web page Hammond Mfg. - Studio Grade - Impedance Matching - Audio Transformers - (140 "EX" Series)
Which is 3dB less than 10mW so if they mean into 10K then that is equivalent to +19dBu.
Cheers
Ian
Ok, someone tighten me up on this. What's so special or useful about a high impedance 1 to 1 input transformer. Is it just for isolation? If so, why not just go in through a quality capacitor? Every mike input transformer I ever wanted or needed was low in and high out.
My understanding is that it's much easier to get good bandwidth and low distortion from a 1:1 xfmr than from a step-up or step-down xfmr.
I was hoping to use it as a phase splitter on the input of a power amp, unbalanced in -> balanced out to the driver stage push-pull grids. It would be driven by a separate line amp based on a common cathode low-mu triode, maybe with a cathode follower output to lower the line stage's output impedance. Is that a reasonable idea? Or (as usual) am I missing something?
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I was hoping to use it as a phase splitter on the input of a power amp, unbalanced in -> balanced out to the driver stage push-pull grids. It would be driven by a separate line amp based on a common cathode low-mu triode, maybe with a cathode follower output to lower the line stage's output impedance. Is that a reasonable idea? Or (as usual) am I missing something?
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To use it as a phase splitter it really needs a centre tapped secondary. You could use a pair of resistors across the secondary with the centre point grounded instead. It would need to feed a pre-driver stage but otherwise the basic idea seems sound to me.
Cheers
Ian
you may just be able to do that as per above post...
look here...Power Amps
i hope SY chimes in and post his cyclotron amp...😉
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