Modulated And Unmodulated Irig-B; Irig-B Ieee 1344 Extension; Pulse-Per-Second (1 Pps); Irig-B Waveforms - Arbiter Systems 1092A Operation Manual

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8.3.2

Modulated and Unmodulated IRIG-B

Figure 8.2 illustrates the primary differences between modulated and unmodulated IRIG-B. You
will notice that the while modulated IRIG-B is distinctive because of the 1 kHz sinewave carrier,
it is similar to unmodulated IRIG-B since the peak-to-peak values of the carrier follow the same
form as the peaks of the digital waveform, which contain the information.
8.3.3

IRIG-B IEEE 1344 Extension

As mentioned above, the turning IEEE 1344 ON in the clock enables extra bits of the Control
Function (CF) portion of the IRIG-B time code. Within this portion of the time code, bits are
designated for additional features, including:
Calendar Year (old method, now called BCD
Leap seconds, and leap seconds pending
Daylight Saving Time (DST), and DST pending
Local time offset
Time quality
Parity
Position identifiers
To be able to use these extra bits of information, protective relays, RTU's and other equipment
receiving the time code must be able to decode them. Consult your equipment manual to determine
if the IEEE 1344 feature should be turned ON in the clock. To view details of the IEEE Std 1344-
1995, please check with the IEEE.
NOTE: To download a copy of of the IRIG-B 2004 specification, please go to the Arbiter web
site (at www.arbiter.com) and check under Documentation.
8.3.4

1 Pulse-per-Second (1 PPS)

A one pulse-per-second timing signal is very simple in concept. It is a digital bit transmitted every
second with a pulse width of 10 milliseconds. A critical part of this signal is that it is "on time" at
Figure 8.2: IRIG-B Waveforms
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Timing, IRIG-B and Pulses
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