I have a copy of the book "Practical Wire Antennas" by Heyes (the first
edition). In it is a schematic for a low noise broadband preamplifier
for loops.

This version uses the BSX20 transistor which at the time the book was
written was far more available in the UK than the 2N5179 used by the
original Hayward design.

The book mentions that it was first published in the ARRL Antenna
Handbook, I can not find it in my copy.

These days it is much cheaper and easier to order 2N5179 transistors
from China on eBay (and probably cheaper to order 10 and pick the best)
than it is for me to order a BSX20.

However without the original schematic or construction article, I am
taking it on faith that it will work with no circuit changes, something
I doubt.

A copy of the schematic and accompanying text would be appreciated.
References to where it appeared or links to pages describing it would be
even better.


The original circuit I was looking at contained 1 transistor, 4 diodes,
6 1/4 watt resistors and 4 disk capacitors. The coil could be wound from
hookup wire on a hunk of ferrite rod, which I have many of.

It's fairly "bulletproof", so high voltages from static, lightening
or nearby transmitters (all three here) won't burn it out like an MMIC.

It's a simple design so that I can build it myself. :-)

TIA,

Geoff.
--
Geoffrey S. Mendelson, N3OWJ/4X1GM/KBUH7245/KBUW5379

On Tue, 8 Apr 2014, Geoffrey S. Mendelson wrote:


I have a copy of the book "Practical Wire Antennas" by Heyes (the first
edition). In it is a schematic for a low noise broadband preamplifier
for loops.

This version uses the BSX20 transistor which at the time the book was
written was far more available in the UK than the 2N5179 used by the
original Hayward design.

The book mentions that it was first published in the ARRL Antenna
Handbook, I can not find it in my copy.

THose things, like the Handbook, change glacially, but unless you had the
right edition, it wouldn't mean a thing.

A "broadband 2N5179" preamp is kind of vague. It might have come from
"SOlid State Design for the Radio Amateur", lots of small schematics in
there, and not all projects. But I can also see some sort of loop in QST
circa 1976, that had a preamp that also might have fit. Though I thought
that article was by someone on the ARRL staff, like Doug DeMaw. But, it
might be attributed to Wes Hayward, since they seemed in constant
correspondence at the time.

I may look in the book later, if I remember and get around to it, see what
might be there.

Michael



These days it is much cheaper and easier to order 2N5179
transistors
from China on eBay (and probably cheaper to order 10 and pick the best)
than it is for me to order a BSX20.

However without the original schematic or construction article, I am
taking it on faith that it will work with no circuit changes, something
I doubt.

A copy of the schematic and accompanying text would be appreciated.
References to where it appeared or links to pages describing it would be
even better.


The original circuit I was looking at contained 1 transistor, 4 diodes,
6 1/4 watt resistors and 4 disk capacitors. The coil could be wound from
hookup wire on a hunk of ferrite rod, which I have many of.

It's fairly "bulletproof", so high voltages from static, lightening
or nearby transmitters (all three here) won't burn it out like an MMIC.

It's a simple design so that I can build it myself. :-)

TIA,

Geoff.
--
Geoffrey S. Mendelson, N3OWJ/4X1GM/KBUH7245/KBUW5379

On 4/8/2014 4:34 AM, Geoffrey S. Mendelson wrote:
I have a copy of the book "Practical Wire Antennas" by Heyes (the first
edition). In it is a schematic for a low noise broadband preamplifier
for loops.

This version uses the BSX20 transistor which at the time the book was
written was far more available in the UK than the 2N5179 used by the
original Hayward design.

The book mentions that it was first published in the ARRL Antenna
Handbook, I can not find it in my copy.

These days it is much cheaper and easier to order 2N5179 transistors
from China on eBay (and probably cheaper to order 10 and pick the best)
than it is for me to order a BSX20.

However without the original schematic or construction article, I am
taking it on faith that it will work with no circuit changes, something
I doubt.

A copy of the schematic and accompanying text would be appreciated.
References to where it appeared or links to pages describing it would be
even better.


The original circuit I was looking at contained 1 transistor, 4 diodes,
6 1/4 watt resistors and 4 disk capacitors. The coil could be wound from
hookup wire on a hunk of ferrite rod, which I have many of.

It's fairly "bulletproof", so high voltages from static, lightening
or nearby transmitters (all three here) won't burn it out like an MMIC.

It's a simple design so that I can build it myself. :-)

TIA,

Geoff.

If you send me an email, I'll send you a pdf of an amp with high IP's,
attached to a 4ft loop, but I think you can make it work with a rod.
My address is good.
Mikek

On HF what do you think you are going to amplify besides the noise?

On 4/10/2014 6:37 AM, Channel Jumper wrote:

'amdx[_3_ Wrote:
;817912']On 4/8/2014 4:34 AM, Geoffrey S. Mendelson wrote:-
I have a copy of the book "Practical Wire Antennas" by Heyes (the
first
edition). In it is a schematic for a low noise broadband preamplifier
for loops.

This version uses the BSX20 transistor which at the time the book was
written was far more available in the UK than the 2N5179 used by the
original Hayward design.

The book mentions that it was first published in the ARRL Antenna
Handbook, I can not find it in my copy.

These days it is much cheaper and easier to order 2N5179 transistors
from China on eBay (and probably cheaper to order 10 and pick the
best)
than it is for me to order a BSX20.

However without the original schematic or construction article, I am
taking it on faith that it will work with no circuit changes,
something
I doubt.

A copy of the schematic and accompanying text would be appreciated.
References to where it appeared or links to pages describing it would
be
even better.


The original circuit I was looking at contained 1 transistor, 4
diodes,
6 1/4 watt resistors and 4 disk capacitors. The coil could be wound
from
hookup wire on a hunk of ferrite rod, which I have many of.

It's fairly "bulletproof", so high voltages from static, lightening
or nearby transmitters (all three here) won't burn it out like an
MMIC.

It's a simple design so that I can build it myself. :-)

TIA,

Geoff.
-
If you send me an email, I'll send you a pdf of an amp with high IP's,

attached to a 4ft loop, but I think you can make it work with a rod.
My address is good.
Mikek

On HF what do you think you are going to amplify besides the noise?




If you have a directional antenna that is -40dbi, you don't think an
amp would be helpful?
Mikek

In article ,
"Geoffrey S. Mendelson" wrote:

This version uses the BSX20 transistor which at the time the book was
written was far more available in the UK than the 2N5179 used by the
original Hayward design.

The book mentions that it was first published in the ARRL Antenna
Handbook, I can not find it in my copy.

Geoff-

Check your E-Mail. I hope you can receive a 3 MB attachment!

I have "The ARRL Antenna Book", Edition 15 from 1988, and Edition 20
from 2003. Both have the 2N5179 amplifier "patterned after a design by
Wes Hayward", as Figure 19 in the chapter on Direction Finding Antennas.

The circuit is billed as a broadband amplifier, but low noise is not
mentioned. It is presented as a 24 dB add-on amplifier for a low noise
preamp used in Figure 18. There is a discussion about choosing a low
noise MOSFET for the preamp.

Fred
K4DII

On 4/8/2014 4:34 AM, Geoffrey S. Mendelson wrote:
I have a copy of the book "Practical Wire Antennas" by Heyes (the first
edition). In it is a schematic for a low noise broadband preamplifier
for loops.

This version uses the BSX20 transistor which at the time the book was
written was far more available in the UK than the 2N5179 used by the
original Hayward design.

The book mentions that it was first published in the ARRL Antenna
Handbook, I can not find it in my copy.

These days it is much cheaper and easier to order 2N5179 transistors
from China on eBay (and probably cheaper to order 10 and pick the best)
than it is for me to order a BSX20.

However without the original schematic or construction article, I am
taking it on faith that it will work with no circuit changes, something
I doubt.

A copy of the schematic and accompanying text would be appreciated.
References to where it appeared or links to pages describing it would be
even better.


The original circuit I was looking at contained 1 transistor, 4 diodes,
6 1/4 watt resistors and 4 disk capacitors. The coil could be wound from
hookup wire on a hunk of ferrite rod, which I have many of.

It's fairly "bulletproof", so high voltages from static, lightening
or nearby transmitters (all three here) won't burn it out like an MMIC.

It's a simple design so that I can build it myself. :-)

TIA,

Geoff.

You might be interested in this amp also.
http://w7iuv.com/
Find W7IUV preamp on left side and click.
Mikek

On Sat, 12 Apr 2014 19:13:10 -0500, amdx wrote:

You might be interested in this amp also.
http://w7iuv.com/
Find W7IUV preamp on left side and click.
Mikek

http://w7iuv.com/preamp60/preamp_r60.pdf

I can't take it any longer...

It's a nice construction article. Too bad it's missing test results
and graphs for the key parameters necessary for a proper HF RF
amplifier. The article correctly identifies the major problem, which
is IP3 or 3rd order intercept point. With all the RF floating around
on HF, overload capability is the key parameter. 2nd most important
is filtering, which helps with overload problems, but also reduces
noise which might mix with some out of band signal, and land in your
bandpass.

Note that the author use 2N3866 and 2N5109 xsistors. These are power
devices, not low noise devices. The clue is the heat sink on the
cans. If you want to handle 1/2 watt of power in your receiver input
stage, and remain linear, you'll need to smoke about 1 watt (or more)
of power in the RF xsistor.

The problems are similar for WWVB loops. If you do a survey of RX
amps for 60 KHz WWVB receivers, you'll find a few that have power
dissipating front ends. You don't need to smoke much power if you're
only going to listen to the local time signal. The very high Q of the
loop (loaded Q=100) will take out most of the out of band signals.
However, all the other time signal transmissions will be within the
bandpass of the loop. If you're trying to listen to a distant time
signal, but you the local transmitter is really loud, you're going to
have a problem. So, the better receivers burn the necessary power in
the front end to handle the potential overload, while the cheaper
units just hope for the best with lower power front ends.
(Incidentally, my 100 KHz LORAN front ends smoked dissipated about 1/2
watt and required a heat sink).

The title of this thread "Hayward design broadband low noise preamp
for loops" is wrong because the last thing you need on a 60 KHz loop
or an HF receiver is a low noise preamp. The atmospheric noise on the
lower HF frequencies is so high, that a low noise amplifier is wasted.
All that the added gain does is decrease the dynamic range. Many HF
receivers feed the first mixer directly from the antenna (after a low
pass filter) with no RF amplifier in sight. It's not needed.

Summary:
- If you're doing 60 KHz with a loop, you don't need a low noise
front end and you might need a high IP3 amp.
- If you're doing 60 KHz with a wire antenna, you don't need a
low noise front end and you will need a high IP3 amp or a very
good front end filter.
- If you're doing HF (2-30 MHz), you don't need a low noise front
end, and you certainly are going to need a high IP3 amp.
- If you're doing VHF/UHF/microwave, you'll need a low noise front
end, and for repeater use, a high IP3 amp.

--
Jeff Liebermann
150 Felker St #D http://www.LearnByDestroying.com
Santa Cruz CA 95060 http://802.11junk.com
Skype: JeffLiebermann AE6KS 831-336-2558

Jeff Liebermann wrote:
Thanks Jeff, (and the others that responded)
Summary:
- If you're doing 60 KHz with a loop, you don't need a low noise
front end and you might need a high IP3 amp.

Not 60hZ, nothing here at that frequency, nor 50kHz EU signals.


- If you're doing HF (2-30 MHz), you don't need a low noise front
end, and you certainly are going to need a high IP3 amp.

To be exact, I am looking for MW broadcast using the loop.
and lower HF bands (80m/40m/6mHz SWBC) using a short antenna, similar to
a PA0RDT type (in only that it is a short wire/pole connected to an
amp).

Geoff.


--
Geoffrey S. Mendelson, N3OWJ/4X1GM/KBUH7245/KBUW5379

In article ,
Fred McKenzie wrote:

The circuit is billed as a broadband amplifier, but low noise is not
mentioned. It is presented as a 24 dB add-on amplifier for a low noise
preamp used in Figure 18.

Geoff-

I found a circuit in a late 70s ARRL Handbook. It is a single stage
identical to each of the two stages in the Antenna Book's Figure 19. I
suspect it is the "Hayward design" you were initially looking for.

The Handbook mentions that the circuit uses negative feedback for wide
bandwidth and unconditional stability. The 2N5179 data sheet indicates
it has low noise.

Fred
K4DII