Thu, 10 Nov 2022 20:55:51 +0100
Enable image_process pugins again
110 | 1 | ======================================== |
2 | EIP 545B RF Frequency Counter - Part 6 | |
3 | ======================================== | |
4 | ||
5 | :author: David Douard | |
6 | :Category: Electronics | |
7 | :Tags: test equipment, RF, EIP, 545, 545A, 545B, 575A, 578A, counter | |
8 | :series: EIP545B Frequency Counter | |
9 | :series_index: 6 | |
10 | ||
11 | ||
12 | Band 3 Sensitivity | |
13 | ================== | |
14 | ||
15 | I have been trying to figure out a bit more about the `sensitivity problem | |
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16 | <{filename}/eip545b_3.rst#sensitivity-problem>`_ described in `part 3 |
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17 | <{filename}/eip545b_3.rst>`_. |
110 | 18 | |
19 | The main problem remains the first YIG sphere that has fall off the holding | |
20 | rod. I have tried to manipulate it with thin wood stick, under my cheap USB | |
21 | microscope, but as expected, this operation is *very* difficult. | |
22 | ||
23 | So for now, this is not fixed at all. | |
24 | ||
25 | However, I was wondering if this YIG sphere was the only problem involved in | |
26 | this lack of sensitiy. | |
27 | ||
28 | As far as I can understand how the unit works, there are 2 level-related output | |
29 | signals from the A203 assembly: the Band 3 RF level signal and the IF threshold | |
30 | signal. | |
31 | ||
32 | The overall process of the Band 3 is as follow: | |
33 | ||
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34 | .. image:: {static}/images/eip545b/band_3_operations.png |
110 | 35 | :alt: Simplified Band 3 Operations |
36 | ||
37 | For which the first step is the search for signal: | |
38 | ||
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39 | .. image:: {static}/images/eip545b/band_3_search.png |
110 | 40 | :alt: Band 3 Search for Signal |
41 | ||
42 | I seems to me that the RF level is used for two purposes: in the search for | |
43 | signal operation first, to measure the RF level then. | |
44 | ||
45 | The RF level is measured from the so called "Video Amplifier", which can has a | |
46 | gain of around one, or can be set to +15dB. | |
47 | ||
48 | So another possible culprit could be the this section of the Video Amplifier. | |
49 | ||
50 | Unfortunately, the schematics of the A203 assembly is not available in the | |
51 | service manual: | |
52 | ||
53 | The assembly drawing and schematic for both the VCO and IF circuits are not | |
54 | available. The entire A203 assembly must be tested as a complete unit to | |
55 | ensure proper performance of the counter. Repair of the Microwave (YIG) | |
56 | module can only be done at the factory. The VCO and IF Amplifier boards | |
57 | require special test equipment, therefore field repair is not recommended. | |
58 | ||
59 | RF and video amplifier | |
60 | ====================== | |
61 | ||
62 | In order to understand, I have drawn the schematics of the board on which are | |
63 | the IF amplifier and the video amplifier: | |
64 | ||
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65 | .. image:: {static}/images/eip545b/A201_2020303.jpg |
110 | 66 | :alt: A201 RF amplifier board |
67 | ||
68 | Fortunately, the board is quite simple, and despite being made of SMD | |
69 | components, single sided. | |
70 | ||
71 | The schematics looks like: | |
72 | ||
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73 | .. image:: {static}/images/eip545b/A201.svg |
110 | 74 | :alt: Schematic of the A201 RF amplifier board |
75 | ||
76 | The video amplifier consist of a simple MC1458 opamp (mainly a dual 741). | |
77 | ||
78 | The 15dB gain is selected by an input pin, leveled by the first half of the | |
79 | MC1458 (used as a comparator) driving of transistor. The marking on the SOT-3 | |
80 | package is 6A Y, which is not easy to find. I finally figured it might be | |
81 | 2SJ106, a JFET transistor. | |
82 | ||
83 | Before finding the kind of transistor it is, I though it was faulty, because a | |
84 | simple measurement of the DS with an ohmmeter gives a low value (around 200 | |
85 | ohms). It took me a little while to rememeber it's a normal behaviour for this | |
86 | kind of transistor (the Drain and the Source being two sides of a single piece | |
87 | of silicon). | |
88 | ||
89 | I removed it from the board, but a quick check using a 20$ LCR/transistor meter | |
90 | showed it looks fine. | |
91 | ||
92 | However, I also need to have a rough understanding of the YIG filter and mixer | |
93 | assembly. | |
94 | ||
95 | ||
96 | YIG filter filter and mixer assembly | |
97 | ==================================== | |
98 | ||
99 | The YIG tuned filter and mixer assembly looks like: | |
100 | ||
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101 | .. image:: {static}/images/eip545b/YIG-mixer.jpg |
110 | 102 | :alt: YIG filter output and mixer assembly |
103 | ||
104 | Once again, I am trying to understand what this whole thing works, but I really | |
105 | don't have the knowledge to do so, really. | |
106 | ||
107 | Looking at this macro photo of the output stage of the YIG filter, it looks | |
108 | like a single diode balanced mixer. The LO signal, provided by the VCO, is | |
109 | coupled with the input signal comig from the YIG filter. | |
110 | ||
111 | It looks to me that the first square block after the coupler could be a mixer | |
112 | diode (otherwise I really don't understand how this could act as a mixer). |