Antonio i56578 SWL, http://i56578-swl.blogspot.it/
As in the age of the old-fashioned mechanical teletypes, still today some asynchronous communication systems run at 75 baud using frames consisting of 1 start bit, 5 (Baudot code) data bits, and 1.5 stop bits, i.e. the duration of the stop "signal" is 1.5 times the normal data bit duration. Although a single 7.5 bits length frame is quite easy to see in the time-domain, its bit-oriented view is impossible at least in the tools at my disposal (unless to aggregate two consecutive frames and then get an integer number of 15 consecutive bits).
As in the age of the old-fashioned mechanical teletypes, still today some asynchronous communication systems run at 75 baud using frames consisting of 1 start bit, 5 (Baudot code) data bits, and 1.5 stop bits, i.e. the duration of the stop "signal" is 1.5 times the normal data bit duration. Although a single 7.5 bits length frame is quite easy to see in the time-domain, its bit-oriented view is impossible at least in the tools at my disposal (unless to aggregate two consecutive frames and then get an integer number of 15 consecutive bits).
This
difficulty about the representation of 7.5 bits frames may lead to
misinterpretation and erros, as I did it (!) using SA/Bee to analyze
what seemed a 150bps/500 Hz FSK burst transmission copied on 16155.0 Khz
(cf). Speed was misured using the AM detector tool (Fig. 1)
 |
| Fig. 1 |
and once demodulated, each burst exhibits a 15-bit period (Fig. 2)
 |
| Fig. 2 |
But
the ACF tells a different story: the signal is structured in 7.5 bits
lenght frames each consisting of 1 start bit, 5 data bit and 1.5 stop
bits and duration of ~100 msec (Fig. 3). This means ITA-2 coding, commonly referred to as Baudot, and a speed of 75 bps!
 |
| Fig. 3 |
As
said, the impossibility to represent an "half bit" makes that two
consecutive frames are considered and then either the speed and the
period are misrepresented!
The
transmission can be decoded using a common Baudot decoder and setting
the right speed (75bps) and shift (500Hz): it consists of ten groups of 5
figures per burst, as shown in Fig. 4. Removing the five extra-bits
(start e stop bits) from the 15-bit period stream we just get the 61
ITA2 5-bit characters of each burst.
 |
| Fig. 4 |
It's worth noting that things are worse trying to force the speed to 75 bps: one bit is lost (Figs 5,6)
 |
| Fig. 5 |
 |
| Fig.6 |
By the
way, the 1.5 bit lenght of the stop signal is derived from the design of
early teletype machines, which was designed this way because the
electromechanical technology of its day was not precise enough for
synchronous operation: thus the systems needed to be re-synchronized at
the start of each character while the stop duration gave the system time
to recover before the next start signal.
Thanks to Cryptomaster for warning the (gross) error.
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