Lundahl Amorphous Core Interstage transformer, LL1692AAM-PP
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  • Lundahl Amorphous Core Interstage transformer, LL1692AAM-PP

Lundahl Amorphous Core Interstage transformer, LL1692AAM-PP

LL1692AAM-PP
246,17 € Maksudeta
300.33 € tax incl. for EU buyers
Lundahl Amorphous Core Interstage transformer, LL1692AAM-PP
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Amorphous Core Tube Amplifier Interstage Transformer / Line Output TransformerLL1692A-PP

LL1692A is an interstage transformer for tube amplifiers, impedance-wise placed between LL1660 and LL1671. LL1692A is available with various core air gaps optimised for PP or SE drives.

The transformer is wound with a special low capacitance winding technique to achieve best high frequency performance. It has a special high flux, low distortion audio C-core of our own production.

The Push-Pull version is assembled with a small core air gap to allow for some DC current unbalance. For the S.E. versions of the LL1692A, the core air gap is chosen such that the denoted DC current (18mA for a LL1692A/18mA) generates a no signal core flux density of 0.9 Tesla when used with all primaries in series. This leaves a flux density swing of approx. 0.7 T for the signal.

Weight: 0.75 Kg

Turns ratio: 1+1+1+1 : 1.75+1.75

Static resistance, winding A: 220 ?

Static resistance, winding B: 175 ?

Static resistance, winding C: 345 ?

Max. DC current through any single section: 70 mA
Isolation between primary and secondary windings / between windings and core: 4 kV / 2 kV

Type

LL1692A-PP

LL1692A-PP

Connection

Alt M
PP to PP Interst.
1.75+1.75 : 2+2

Alt N
PP Line output
1.75+1.75 : 1

Primary DC current for 0.9 Tesla

-

-

Primary Inductance

210H

210H

Freq. Response (+/-1dB) @ source impedance (*) Secondaries open

20 Hz 45 kHz 10k?

20 Hz 50 kHz 10k?

Max output voltage @ 30 Hz

2 x 240V r.m.s.

120V r.m.s.

(*) The source impedances used in the tables indicate a recommended upper limit, unless the specified LF frequency response can be compromised. At lower source impedance, bass will improve but resonance peaking might occur. Peaking can be reduced using secondary load resistors or RC networks.

LL1692AAM-PP
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