Thread to discuss modifications which add or change functionality of classic gear and keep it viable today.
The Kenwood R820: Getting more coverage.
I have a few of these things kicking around the shack, and use two in conjunction with a pair of TS820S transceivers. The third sees duty as a general-coverage Ute monitor of sorts, and it no longer covers the ham bands.
Primarily, there are two ways to extend or change coverage of an R820 - and some of the tricks I'll discuss can be applied to a TS-820S as well...especially the WARC-band mods.
[highlight:18ejtptw]Method 1 - re-crystal and add the "Aux" Band components[/highlight:18ejtptw]
The 820-series PLL/VCO/counter arrangement uses one crystal oscillator/VCO combo per band, and it's easy to swap crystals on the PD board to get different coverage ranges - but you'll need a solder sucker to do it properly. The reference oscillator crystals are on 500KHz multiples and the required frequency for a given band is calculated by:
Fc = 5.5 + lower band edge
In this example, we want coverage of 12M, starting at 24.5 MHz. Thus, 5.5 + 24.5 = 30.0000 MHz.
The crystals used are HC-18/U or HC-49/U (wire lead), 20-30pF series capacitance. (eBay's yer buddy in some cases. I bought an entire bag of the rocks required for 12M for ~$3 and will pass along the savings to anyone who wishes to mod their 820 line. Contrast this to $20 per crystal from ICM!)
I changed most of the band crystals in my "Ute" '820 and will have the following bandswitched coverage when done:
2.0-2.5 MHz
3.0-3.5 MHz
6.5-7.0 MHz
13.5-14.0 MHz
15.5-16.0 MHz (old WWV spot)
21.5-22.0 MHz
26.5-28.0 (in three bands)
29.5-30.0 MHz (left stock...more on this in a bit)
25.5-26.0 MHz - added to the "Aux" spot
This gets me the 120M, 90M, 41M, 22M, upper end of the 19M, 13M and 11M SW broadcast bands...as well as the area directly above and below the Class D CB Radio service. It's useful to be able to find who's tearing up 10M on occasion...
Adding a band to the "Aux" spot requires adding a crystal, a 3.3K resistor, 5.6K resistor and a 150pF ceramic disc capacitor to the PD board. You need to add a 9/32" tunable coil of the correct inductance to the "T11" spot on the VCO board, along with four (or five, depending on band) pF-range ceramic disc capacitors. You must remove the Coil Pack board and add an ANT and two MIX slug-tunable coils, the value of each depending on the new band added.
Word of Advice: Acquire a junked TS820S and salvage the needed ANT coil from its Coil Pack board, and required the VCO coil from the VCO board. You can also get the two 9/32" MIX coils from this board...but you're going to have to rewind them. I used a total of 8 turns on each of the new coils for the 25.5 MHz band; this should resonate 12M with ease. On a previously converted '820 I would ALL the coils from scratch. A dip meter is invaluable here. It was still a PITA.
Follow the service manual procedure for adjusting the VCO and Coil Pack coils.
Your TS-820S can be similarly modified. QST (February 1983) carried a detailed article; much of which I've described here is loosely related.
[highlight:18ejtptw]Method 2: Electrickery with the Converter unit[/highlight:18ejtptw]
Kenwood did a neat trick with this receiver: They built a SWBC receiving converter which outputs to 10M and which is capable of preloading the counter, thus giving accurate readout of anything covered by the converter. We're going to take advantage of their design logic to get some extra coverage in a relatively easy fashion.
See the secondary "Band" knob in the picture below? Kenwood tied its activation line to just the 29.5 MHz bandswitch position, but it'll work on the other 10M spots.
Arm yourself with a service manual, schematics and a soldering iron...and a few 1N4148 diodes. That's all this mod requires.
First, remove both top and bottom covers and locate the main bandswitch. Look for a WHT/BRN wire which runs from the 29.5 MHz contact to the top rear contact on the SWBC bandswitch. (It's at the anode end of a 1S1555 diode which is connected to two of the wafers.) Unsolder the WHT/BRN wire at the anode end of the diode then solder it to the anode of one of the 1N4148 diodes you sourced for this project. Solder the cathode end of your new diode/wire arrangement to the anode of the 1S1555. Use heat shrink tubing on the diode and wire.
Now locate the 29.0 MHz (WHT) and 28.5 MHz (GRY) bandswitch wires. Peel a little insulation back at the midpoint of each and solder the anode of a 1N4148 to each. Now solder the cathodes to the anode of the 1S1555, just like you did above. Again, use heat shrink and a little electrical tape on each of the connections. Check for shorts, then power up the receiver. You're hearing stuff...but...the counter is indicating incorrectly at this point!
There's a fix for that. Study the service manual and the schematic of the PD/VCO board. Then look at what Kenwood did for the 28, 28.5 and 29 MHz bands that they didn't do for the 29.5 MHz band.
That's right, diodes. These are used to preset bandpass select line "B4" of the counter but aren't needed if voltage is present as a function of the secondary band-select circuit.
Remove the PD/VCO assembly, invert it and remove the 5 sheet metal screws that secure the cover. Now locate D21 and D22, near the "B1-B4" posts. Snip their anode ends and mode them out of the way, then replace the VCO cover and reinstall the module, connecting the PLL1-PLL5 connectors as you go. Check your work...fire the set up and look smug. It's now displaying properly.
Each of the four "SWBC" bands employs a tuned bandpass filter, and these must be retuned to allow broader coverage of the "expanded" ranges. I find it best to stagger-tune them with the aid of a sweep generator but you can do it manually if necessary. Just peak on atmospheric noise or signal at several places throughout the whole 1.5 MHz range. (Refer to the R820 service manual for details on the procedure and component identification.)
[highlight:18ejtptw]Method 3: A little of both[/highlight:18ejtptw]
The converter's crystals can also be changed to move the coverage around a bit. I would try to stay within 1.5 MHz of either side of "stock", which is as follows:
5.9-6.4 MHz
9.4-9.9 MHz
11.5-12.0 MHz
17.7-18.2 MHz
(Yes, it'll cover 17M "out of the box". I took advantage of this and modified my TS-820S to cover 17M, and in doing so I specified the new PD oscillator crystal frequency such that it allows accurate tracking of the R-820's tuning range...thus enabling true 'twins' operation on the 18 MHz band.)
The crystals required to modify the converter board are HC-18/U or HC-49/U; 20-30pF series capacitance...and their frequency is calculated accordingly:
29.5 - lower band edge
Thus, for coverage of 7.0-7.5 MHz (at the old "49M") spot, you'll need a 22.0000 MHz crystal. Again, an easy eBay find.
Lastly -
One can modify the WWV/JJY band position of either the R-820 or the TS-820S for 10.0-10.5 MHz operation, thus covering 30M. The February '83 QST article goes into detail about this modification; I'm going to do it to my second "pair" of twins and add 12M to each in the process.
Should anyone find this writeup useful and want pictures and/or help, I'll be glad to assist.
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Originally Posted by KG4CGC
