There is a typo in my instructions. R30 should be R39. I know of no way to
change this since it is forever recorded in the Googlesphere.
Steve Ellington
N4LQ@iglou.com
----- Original Message -----
From: Steve N4LQ
To: tentec@contesting.com
Sent: Thursday, March 10, 2005 8:14 PM
Subject: Mod: Omni VI N.B. killer
3/10/2005 TenTec Omni VI Noise Blanker Mod:
Most of know what the side effects of a noise blanker are. Unwanted signals in
the passband, thumps, squeaks etc. Noise blankers can reduce or eliminate
certain unwanted, short duration pulses but when conditions are good, you
certainly want the blanker turned OFF.
On the Omni VI or VI+ you might notice that the N.B. has no off/on switch. The
manual says: "Always leave the N.B. control in the maximum counterclockwise
position when not in use. This position is off."
Well This is not quiet the whole truth. It is off UNLESS a strong signal
appears within the passband of the Omni's first IF, which is around 20khz wide!
When a strong CW dit appears within this passband, the noise blanker's agc
voltage will jump to a low enough level (less positive) and suddenly activate
the two N.B. stages. The N.B. amps, now at nearly full gain, spews out a sudden
pulse as if it were responding to noise and guess what happens next:
Have you ever noticed how strong CW signals, >20db over S9, seem to clip? Yes?
Well that's because the blanker has been suddenly activated. The gain of it's 2
stage I.F. amp suddenly jumps sky high and it produces a plus, opening the
noise gate and clipping the CW. It's the sudden amplitude change that causes
this. I have observed this on four Omni VI's. The work around is to kick on the
-20db attenuator, turn down the RF gain or turn up the N.B. level to stabilize
the blanker's reaction to the agc thus reducing the pulse level. This is fine
but maybe you are trying to hear a weak signal and a 30db over 9 guy is 15khz
up band banging away. Kicking on the attn. kills the weak guy and turning up
the N.B. invites all kinds of unfriendly visitors to your passband. Somehow we
must kill the blanker. The cure is easy:
Remove the top lid. Locate the Low Level Driver/N.B. Board. From the front of
the rig, it's the left center board. Remove the board. Locate the 2 I.F.
transformers. Next to each you will see a small IC. These are U1 and U2. Next
to each of these you should see a 33k resistor. These are R30 and R42. R39
connects to pin 5 of U1. R42 connects to pin 5 of U2. Orange, Orange, Orange is
the color code. Remove them and replace them with 16K resistors. Reinstall the
board.
After replacing these resistors and turning the N.B. level max
counterclockwise, I was able to apply a needle pegging CW signal from another
rig with no side effects. The resistor value was chosen by gradually decreasing
the value so that the N.B. amplifiers had zero gain, even when presented with a
strong signal. I then checked for proper N.B. operation. My friendly power
company supplies me with a constant test signal on 10m. Rotating the N.B.
control clockwise quickly and totally eliminated the power line noise. The N.B.
knob needed to be advanced about 5 degrees more than before to overcome the
extra bias I had created. Mission accomplished.
I believe the typical lab test overlooks problems like this. Labs use steady
state signals to measure IMD, not pulses and having a blanker run full time is
certainly an invitation for Mr. IMD.
If you feel the need to align the N.B. for maximum performance you may do so by
peaking L7 and L8. Observe the voltage on pin 5 of either U1 or U2 while
applying a carrier to the antenna input. Turn up the N.B. control slightly then
peak each transformer for max negative deflection. They peak quiet sharply.
Steve Ellington N4LQ
N4LQ@iglou.com
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