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#482
10-17-2024, 10:09 AM
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Quote:
 Each stagger tuned stage has a resonant coil which connects to T102 terminals A/B and T103 terminals A/D, T104 terminals A/Band and T106 terminals D/C. So the "resonant coil" in this example (T-106) is the coil that's in circuit? The resistors are placed across each stagger tuned coil. There is really no primary and I don't know why you are hung up on that. I'm confused. Can you clarify for me the difference between the resonant coil and the stagger tuned coil? You refer to the "stagger tuned stage". I guess that's confusing to me as well. Basically I think I need to know what is in these cans. For the pictured T-106, the can is literally the stagger tuned stage? The 2 coils within it...the coil between D and C is the resonant coil. Is this correct? What is the other coil, the one that stands alone and is not connected in the circuit? Or am I looking at this the wrong way and I need to think of the 2 coils in the stage as a single item? 
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#483
10-17-2024, 02:44 PM
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Yes, d&c are the resonant. The other (without connections to the circuitry) is the trap.
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#484
10-17-2024, 04:25 PM
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Each coil connected through capacitors or otherwise to the tube circuits is a resonant coil. Saying that they are stagger-tuned coils only means that each one is tuned to a different frequency instead of all to the the same frequency (which is called synchronous tuning).
The coils that are connected to nothing except a single capacitor and nothing else are the trap circuits. These trap circuits can be called magnetically coupled or transformer coupled if you wish.
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#485
10-17-2024, 05:24 PM
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Yep, yep and yep to the previous replies.
All that stagger tuning is is to have each tune circuit tuning staggered to obtain the desired wide bandwidth. Later, when you get to the point where you are frequency sweeping the entire IF amplifier, you will have to slightly tweak some of the stages to get the flat top shaped response with the frequency markers at the correct amplitude. And because the stages are stagger tuned, you will look at the response on the scope and adjust one of the stagger tuned stages corresponding to the part of the band to correct it. Last edited by Penthode; 10-17-2024 at 05:27 PM.
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#486
10-17-2024, 05:24 PM
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So my brain needs to flush all this out to be able to understand it. It’s just the way facts have to get processed before I get it. So when a signal with different frequencies goes through a circuit and you are trapping one or removing one with a trap coil, that coil, by moving an iron slug to the appropriate position within a winding will resonate at the desired frequency matching the signal to be filtered out. Is it the coil in circuit that is resonating at various frequencies including the one to be trapped and that energy is dissipated by the fact there’s an adjacent coil at just the right “stimulateable” resonance that essentially sucks the frequency energy out of the broader signal? It’s like a filter that hijacks the undesirable frequency out because it’s tuned to “pick it up” from the broadband family of frequencies passing through? Or am I lost somewhere in the asteroid belt!
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#487
10-17-2024, 06:13 PM
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You got it. The trap circuit sucks a narrow range of frequencies out of the broader circuit's response.
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#488
10-17-2024, 07:19 PM
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Quote:
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#489
10-17-2024, 08:13 PM
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Quote:
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#491
10-18-2024, 09:04 AM
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Do you understand what you are doing by clipping in place the resistors? It is to eliminate the resonance of the stagger tuned coils so that the remainder of the video IF strip is just an untuned amplifier. This is so you can see independently the tuner over coupled transformer link frequency response when you sweep it. You must try and understand the process so so will be better able to identify and rectify any problems.
So what is it I'm stopping by attaching the resistors? Is it the resonant, in circuit coils or the trap coils? I sorta get the statement this makes the video IF stages an untuned amplifier but the statement "This is so you can see independently the tuner over coupled transformer link frequency response when you sweep it"is making my head spin. So when I sweep the input signal symmetrically 10mc with 25mc as the center frequency (from 20-30mc) and pick it up on the scope at the end of its travel through a detuned IF series of stages, I'll see the full bandwidth signal out at the end? If so why is that important to see and what then am I looking for to adjust?
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#492
10-18-2024, 10:37 AM
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Quote:
1. Confirm traps are correct 2. Sweep align the tuner to first IF over-coupled link with resistors shunting the downstream stages 3. Sweep align the entire video IF with the resistor shunts removed. You should be cognizant of the fact that unless someone has in the past meddled with the tuner-1st IF link transformers, the adjustment should be close. Be aware that if any of the resistors are not connected or loose, it will distort the response you are trying to obtain. Once the resistors are removed which will raise the gain of the IF amplifier, there is the danger of oscillation which they describe how to handle in the notes. The oscillation will occur if two of the stages are tuned close to the same frequency. The Video IF stages must be properly stagger tuned to be stable. Here is a Wiki page describing stagger tuning. https://en.wikipedia.org/wiki/Stagge...reduced%20gain. Last edited by Penthode; 10-18-2024 at 10:42 AM.
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#493
10-18-2024, 10:47 AM
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Quote:
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#494
10-18-2024, 03:56 PM
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A caution I need to add with this particular chassis when adjusting the IF stages. The adjustments can be deceptive because when you are adjusting for a peak you may inadvertently be tuning two stages to the he same frequency which will cause oscillation. This oscillation can be easily mis identified as a peak. The way to confirm is always as you raised or lowered the deep generator input, the output put level should rise and fail. If when reducing the signal generator in you still see a signal which does not change when you vary the generator output, you have an oscillation condition you will need to address.
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