- PSK, MT63 and other modes using microphone input – is the same as above. A trimpot is used for coarse level adjustment, just to prevent the radio AF input (mic or ACC) from overloading
- FSK RTTY – optocoupled keying output for FSK (if available). If your software does not provide true keyed FSK output or your old radio does not offer a FSK input, you can’t use it and use the CW signal path (see below)
- CW – many programs can be used for ultra-high speed CW keying (up to 200 WPM) using a simple trick – the CW is generated with the sound card and the output signal is rectified. The resulting voltage drives a switching transistor which can key the radio in usual way. The same trick can be used for „pseudo FSK“ (see fldigi by W1HKJ, http://www.w1hkj.com/Fldigi.html). In this interface, the souncard output is switched (S1 in the schematic) either to the isolating transformer for the modes using the microphone (or other AF) radio input or to another transformer (this one is different, also a swiss Neutrik AG product but with the ratio 1kohm/10kohm, the high-Z side is connected to the rectifier) feeding an usual bridge rectifier driving a switching transistor. The capacitor C4 is rather critical, the value is a matter of experimentation. In my case, 47 nanofarads (.047) was appropriate.
- PTT – another optocoupled output.
(click to enlarge)
(click to enlarge)
- The radio ground a the sound card ground (computer fround) must be kept away! The common trouble is lack of isolation (ground separation) resulting in audio hum, poor S/N ratio and unreliable port keying. Probably the best guide to overcome the ground isolation and common mode problems is the „RFI, Ferrites, and Common Mode Chokes For Hams“ by Jim Brown, K9YC (PDF download from http://www.audiosystemsgroup.com/RFI-Ham.pdf– a must have!). Don’t forget the ferite chokes on all cables!
- Some optocouplers can’t key the radio inputs, also some radios are known to have such problems. It is not a matter of the optocoupler gain but its output device (a transistor or a Darlington). Any optocoupler in its ON state represents a resistance in order of 3 – 15 ohms. Connect a 10 ohm resistor across the radio input (key, PTT, FSK) and watch the response. If the input is not keyed (or the output power is low), a solid state relay might help. The NAIS AQW210EH are good but rather expensive, but they are pin compatible with most optocouplers.
- Another source of problems can be the cable from computer port. The interface is universal but the cable not. Be careful of output signals where they are, on which pin! Most programs allowing to use RTS, DTR or BOTH for the PTT signal.
A PDF copy of this article is here.