An IC-781 graced my shack from mid-1993 until late 1998. I found that it was lacking in adjacent-channel selectivity on SSB, so I installed the "NATO" filter mod - FL-44A in lieu of FL-96. I also replaced the stock FL-102 with an FL-223 for narrow SSB.
Then, I bought an "original" IC-756. The 756, with its DSP NR, outgunned the 781 with an outboard NIR-12 on weak/noisy signals, and offered superior adjacent-channel selectivity with the FL-222/223 SSB filter pair installed. So I reluctantly let the "old girl" go.
Whilst living in Florida, I was an NCS on the Icom Users' Net (formerly 14317 kHz, Sundays, 1700Z) for several years. At times, adjacent-channel interference became a severe issue, what with our frequency sandwiched between the "hot-spots" which used to occupy 14313 and 14322 kHz. The Icom Net has since moved to 14.316 kHz, to get away from the fourth harmonic of the TV colour-burst.
Even with the "NATO" filter upgrade and the FL-223, the ACI and splatter would sometimes overwhelm the 781. I found that the IC-756's cascaded 1.9/1.8 kHz narrow SSB filters (FL-223/222), together with Twin PBT, did a better job of "pulling out" the desired signal than the IC-781.
Another situation which frequently arose was trying to copy a check-in station running barefoot to an indifferent antenna; often, his signal was in the noise. I found that the DSP noise-reduction feature of the IC-756 often resolved these weak signals well enough for Q4 to Q5 copy, when they eluded the 781 - even with an outboard JPS NIR-12 audio DSP box.
It should be noted that low reciprocal mixing noise (a function of DDS phase noise) is a very strong attribute of the IC-781. On 20m, with 10 kHz offset, the measured reciprocal noise-mixing "numbers" for the IC-781 are 5 dB better (RF preamp on) than those of its competitor, the Yaesu FT-1000D, and 15 dB better with RF preamp off. The IC-781 uses the same DDS synthesiser chipset as the IC-275 family of VHF/UHF all-mode radios.
Two years ago, an IC-756Pro replaced the 756, and I found it even better all around. It even has a tuneable pre-AGC notch filter, unfortunately omitted from the 756. I then brought back an IC-756Pro II from Dayton 2002, and am still evaluating it against the Pro. First indications were that the Pro II has vastly-improved strong-signal handling.
In 2005, an IC-756Pro III took the place of the Pro II. Here is a user review of the Pro III. Then, in mid-2008, the Pro III ceded its spot to an IC-7700 of which I can truly say that it is the finest HF transceiver I have ever owned. The IC-7700 brings back the "big radio" experience which I had enjoyed so much with the IC-781. Read an IC-7700 user review.
There is no gainsaying DSP-based HF radio architecture. Defence suppliers such as Rockwell Collins, Harris and Rohde & Schwarz have been using DSP for years in their HF equipment. it is only in recent years that DSP chipsets have reached a price/performance level accessible to the amateur community.
Radio architecture is now at the point where classical analogue designs are no longer cost-effective to manufacture, and DSP will only get faster and better. However, analogue radios (such as the IC-781) will still be available in the second-hand market for years to come.
From the ham radio standpoint, the IC-781 was an accident of history which turned out very well indeed. Icom developed this radio under a defence contract; soon thereafter, the ham community "discovered" its incredible performance - way ahead of the pack at the time - and its unique features such as the Spectrum Scope, Dual Watch and Twin PBT. Those radio amateurs who could justify its (then) $5000 price tag bought every IC-781 available on the open market.
Technology has moved on, now, and the "old girl" is discontinued - but thousands are still on active duty in communications centres (and ham shacks) world-wide.
I sold my 5-year-old IC-781 in December 1998, when I found that the IC-756 outgunned it in weak-signal reception. The later serial number ranges (anything above 2500) are preferable; the newer the radio, the less likely it is to have heat damage on the power-supply (PI Unit) board, or CRT screen burn. My radio was S/N 2936, manufactured in mid-1993.
One should not pay more than around $2500 for a used IC-781. A few years ago, an old friend of mine in New England paid around $2700 for a 781 in the S/N 2900 range.
One should also consider that IC-781 parts are going to become scarcer as time goes by. The CRT module, which used to cost $800, is no longer available. The LCD display module used in the R-9000L will fit in the IC-781; it costs over $1000, and is no match for the old CRT in image quality.
This does not take away from the superior reliability of the radio; in the five years I had my 781, it never gave a lick of trouble. There have been no more than two or three service bulletins during the entire product life of the 781.
The power-supply heat problem in the IC-781 is a matter of concern. The power supply uses a shunt regulator, and was designed for the Japanese 100V mains supply. When connected to 120V mains, the power supply dissipation can increase by as much as 44%. The heatsink was not designed for the additional thermal load; consequently, the power-supply area runs very hot. This can lead to component breakdown over time. Further reading.
Download Traian YO9FZS' excellent article "IC-781 & IC-R9000 technical and maintenance issues".
There is a filter upgrade which I posted on mods.dk It consists of replacing the FL-96 with an FL-44A, and the FL-102 with an FL-223. The FL-44A improves the adjacent-channel selectivity and Twin PBT operation, and the FL-223 provides a Narrow SSB setting.
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Page last updated: 10/12/10