TB 9-4931-539-35
i. Time . The designation of an instant on a selected time scale, astronomical or
atomic. It is used in the sense of the time of day.
j. Time Interval. Indicates the duration of a segment of time without reference to
when the time interval begins and ends. Time interval may be given in seconds of time.
GENERAL DISCUSSION
4. VLF Tracking System.
Since frequency is the
reciprocal of time, the
atomic second
is used as the standard for frequency. Radio station WWVB at Fort Collins, CO,
transmits a standard 60 kHz carrier frequency directly traceable to NIST. This signal
carries a basic accuracy of 2 parts in 1011 and is normally transmitted 24 hours a day
over the continental U.S. In addition to WWVB, there are a number of other stations
which transmit carrier frequencies with equal accuracy. These frequencies are listed in
tables 1 and 2
below. Occasionally, due to
poor reception caused by
weather, sunspots,
transmission path length, etc., the standard VLF signals cannot be suitably used. An
alternative is the TIMESHARED OMEGA system which transmits repetitively on
assigned time segments of a 10-second duration. Basic accuracy is to parts in 1011.
5. System
Components. A
local frequency standard can be maintained to within a few
parts in 1010 by phase comparison with a received VLF carrier transmission. This VLF
transmission is picked up by the Model 599-700R Ferrite Loop Antenna and applied to
the Model 599J/K VLF Tracking Receiver. Basic accuracy of the 599J/K is 2 parts in
1011. The VLF receiver and phase comparator provide a precision measurement of
relative phase between the transmitted VLF carrier frequency and the local time base
reference (Model 105A or FS-323). The output of the phase comparator is used to drive a
phase shifter for automatically locking the local time base reference with the selected
VLF carrier. The phase of the local time base frequency is thus locked to the phase of
the received VLF carrier signal. A strip chart recorder responds to error signals
indicating slight phase deviation between the two signals and provides a visual
indication to allow the operator to adjust the local standard. When the frequency of the
counters, oscilloscopes, etc. A frequency difference meter (Model 527E or FDM-2100) is
connected between the local oscillator and the instrument under test and is used to
determine the fractional frequency difference between the two. This provides a visual
means for adjusting the TI to that of the standard.