"Swan Radioman" wrote in message
...
Any ideas where I could find a 125v @ 15ma, 6.3 v @ 0.6 Amp
transformer?

www.oldradioparts.com Got to the transformers page, there look for
Stk# 1013-041 125V/ 25MA, 6.3V FIL .6A, USED................$5.00

Give the owner a call, or send an email.
--
Tweetldee
Tweetldee at att dot net (Just subsitute the appropriate characters in the
address)

Time is what keeps everything from happening all at once.

"Swan Radioman" wrote in message
...
Any ideas where I could find a 125v @ 15ma, 6.3 v @ 0.6 Amp
transformer?

www.oldradioparts.com Got to the transformers page, there look for
Stk# 1013-041 125V/ 25MA, 6.3V FIL .6A, USED................$5.00

Give the owner a call, or send an email.
--
Tweetldee
Tweetldee at att dot net (Just subsitute the appropriate characters in the
address)

Time is what keeps everything from happening all at once.

In article , says...

Any ideas where I could find a 125v @ 15ma, 6.3 v @ 0.6 Amp
transformer?
I used to have about a dozen of them around, pulled from old tube type
phono preamps, and old uhf to vhf external convertors for television
receivers. Got any hamfests near you coming up?

On Thu, 07 Aug 2003 02:15:50 -0000, (gudmundur)
wrote:

In article , says...

Any ideas where I could find a 125v @ 15ma, 6.3 v @ 0.6 Amp
transformer?
I used to have about a dozen of them around, pulled from old tube type
phono preamps, and old uhf to vhf external convertors for television
receivers. Got any hamfests near you coming up?

Not it the near future, I missed the last one..

On Thu, 07 Aug 2003 02:15:50 -0000, (gudmundur)
wrote:

In article , says...

Any ideas where I could find a 125v @ 15ma, 6.3 v @ 0.6 Amp
transformer?
I used to have about a dozen of them around, pulled from old tube type
phono preamps, and old uhf to vhf external convertors for television
receivers. Got any hamfests near you coming up?

Not it the near future, I missed the last one..

In article , says...

Any ideas where I could find a 125v @ 15ma, 6.3 v @ 0.6 Amp
transformer?
I used to have about a dozen of them around, pulled from old tube type
phono preamps, and old uhf to vhf external convertors for television
receivers. Got any hamfests near you coming up?

How much voltage is the 110V primary winding insulated for, typically? Is
there a non-destructive way to find out? I've been thinking about achieving
a 4x stepup by feeding 24V into a 6V winding and getting 440V. Even more,
p-p.

Tom, N3IJ

"Swan Radioman" wrote in message
...
On 7 Aug 2003 04:20:41 GMT, "Dick Carroll;" wrote:

Buy 2- 6 .3 volt ~1 amp filament transformers. Use one to supply the
6.3 V filament
voltage then hook the 6.3 volt winding of the other to the 6.3 volt
filament line and get
your 125 volts on the former primary of the other. Works like a champ.

Dick

Thanks Dick, never thought of that, I just happen to have two 6.3 volt
transformers.


Swan Radioman wrote:

Any ideas where I could find a 125v @ 15ma, 6.3 v @ 0.6 Amp
transformer?

In article , "Tom Coates"
writes:

How much voltage is the 110V primary winding insulated for, typically? Is
there a non-destructive way to find out? I've been thinking about achieving
a 4x stepup by feeding 24V into a 6V winding and getting 440V. Even more,
p-p.

The insulation MIGHT be figured as twice the maximum peak-to-peak
AC swing to all other windings and their twice peak-to-peak values and
the core and frame. No guarantee, just a rule of thumb.

A "non-destructive way to find out?" Absolutely. Get an old plate
transformer of about 250 VDC kind or higher, put a variable auto-
transformer on the input, and series the secondary through a very
high value resistor, say around a MegOhm, to the device under test.
Use a scope to measure the AC across the device under test.

Bring up the autotransformer (trade names Variac - General Radio -
or Powerstat - Superior Electric) voltage from zero and watch the
scope waveform. When it starts to break up, that's the breakdown
voltage, approximately related to the variable autotransformer setting
and the ratio of voltage step-up of the test transformer. The series
resistance value limits the short-circuit current flow; with 1 MegOhm
and, say, 400 VAC, the maximum current flow would be 0.4 mA AC.

Any "HiPot" tester (former Brewster Electronics) can do the same
thing.

The design and capabilities of transformers are covered in essence
in the old "Green Bible," or ITT Radio Handbook for Engineers, circa
1950s. Also the "Blue Bible" of the 1970s and later. There's a lot
more to power transformer design than realized. You CAN get a
voltage step-up as you described but you will NOT get the rated
currents into any finite load. I will let the "student" figure that one
out.

A coarse approximation of winding a small power transformer is to
figure the number of turns per volt per winding as the E-I core center
square area in square inches divided by 6.5. Choose wire size to
handle the current. That's only for estimation purposes since there are
lots of variables involved. I'm not saying to rewind anything, just that
you will probably get the increased NO-LOAD voltage, but that will
drop depending on the equivalent load resistance.

Len Anderson
retired (from regular hours) electronics engineer person

In article , "Tom Coates"
writes:

How much voltage is the 110V primary winding insulated for, typically? Is
there a non-destructive way to find out? I've been thinking about achieving
a 4x stepup by feeding 24V into a 6V winding and getting 440V. Even more,
p-p.

The insulation MIGHT be figured as twice the maximum peak-to-peak
AC swing to all other windings and their twice peak-to-peak values and
the core and frame. No guarantee, just a rule of thumb.

A "non-destructive way to find out?" Absolutely. Get an old plate
transformer of about 250 VDC kind or higher, put a variable auto-
transformer on the input, and series the secondary through a very
high value resistor, say around a MegOhm, to the device under test.
Use a scope to measure the AC across the device under test.

Bring up the autotransformer (trade names Variac - General Radio -
or Powerstat - Superior Electric) voltage from zero and watch the
scope waveform. When it starts to break up, that's the breakdown
voltage, approximately related to the variable autotransformer setting
and the ratio of voltage step-up of the test transformer. The series
resistance value limits the short-circuit current flow; with 1 MegOhm
and, say, 400 VAC, the maximum current flow would be 0.4 mA AC.

Any "HiPot" tester (former Brewster Electronics) can do the same
thing.

The design and capabilities of transformers are covered in essence
in the old "Green Bible," or ITT Radio Handbook for Engineers, circa
1950s. Also the "Blue Bible" of the 1970s and later. There's a lot
more to power transformer design than realized. You CAN get a
voltage step-up as you described but you will NOT get the rated
currents into any finite load. I will let the "student" figure that one
out.

A coarse approximation of winding a small power transformer is to
figure the number of turns per volt per winding as the E-I core center
square area in square inches divided by 6.5. Choose wire size to
handle the current. That's only for estimation purposes since there are
lots of variables involved. I'm not saying to rewind anything, just that
you will probably get the increased NO-LOAD voltage, but that will
drop depending on the equivalent load resistance.

Len Anderson
retired (from regular hours) electronics engineer person

How much voltage is the 110V primary winding insulated for, typically? Is
there a non-destructive way to find out? I've been thinking about achieving
a 4x stepup by feeding 24V into a 6V winding and getting 440V. Even more,
p-p.

Tom, N3IJ

"Swan Radioman" wrote in message
...
On 7 Aug 2003 04:20:41 GMT, "Dick Carroll;" wrote:

Buy 2- 6 .3 volt ~1 amp filament transformers. Use one to supply the
6.3 V filament
voltage then hook the 6.3 volt winding of the other to the 6.3 volt
filament line and get
your 125 volts on the former primary of the other. Works like a champ.

Dick

Thanks Dick, never thought of that, I just happen to have two 6.3 volt
transformers.


Swan Radioman wrote:

Any ideas where I could find a 125v @ 15ma, 6.3 v @ 0.6 Amp
transformer?