CXR Larus 80-100-400
Issue 1, July 2006
______________________________________________________________
____________________________________________________________
5−
14
5.5213 Samples of phase information are collected and averaged, over about a
one-second time period, to provide input to the control algorithm. If, at any
point in the accumulation and calculation period, a condition is detected
(excessive errors, LOS, OOF, etc.) which causes the collected information to
be suspect, the unit enters the holdover state and does not update the
correction to the oscillator. If the data are qualified, then the update will
proceed. After 128 acquire cycles (about 2 minutes) following initial
qualification, the clock will be in the tracking mode. After 5 to 7 minutes, the
tracking mode will be at minimum error if the input is within specifications. The
54522 will track timing signals from any other Stratum 3/LNC or higher source
(i.e., Stratum 2/TNC or 1/PRC) having a frequency offset of no more than ±7.1
Hz.
5.5214 Framer
The 54522 communicates with a CS2180 Transceiver Chip for the T1 inputs or
a CS2181 Transceiver Chip for the E1 inputs. The framing circuit detects the
following framing errors:
a. Yellow Alarm, LOS (175 ±75 consecutive zeros)
b. BPVs
c. Invalid CRC6 codes (ESF framing only) or CRC4 codes (CRC4 framing
only)
An impaired signal causes the microcontroller to switch to the other input and
continue tracking; if all inputs are impaired, the microcontroller ceases
tracking, goes into the HOLD mode, and indicates the type of impairment on
the seven segment display.
5.5215 Ovenized Crystal Oscillator
A 10 MHz ovenized crystal oscillator provides the input to a 48-bit direct digital
frequency synthesizer (DDFS).
5.5216 Direct Digital Frequency Synthesizer
The oscillator is coupled to the DDFS and acts as a reference for it. The
DDFS operates on the presumption that oscillator frequency is kept within a
reasonable degree of precision, e.g. within one part in 10
-9
. The DDFS uses a
digital process to convert the oscillator signal into a signal having a second
related frequency. The DDFS accomplishes this conversion by utilizing a
stored algorithm and a numerical input from the microcontroller.
The DDFS accepts an integer, N, from the microcontroller. The DDFS then
generates a new output frequency 'F out' from 'F osc' according to the
following formula:
(N) (F osc)
F out =
--------------
Содержание 54500-16
Страница 7: ...This page is intentionally left blank...
Страница 28: ..._______________________________________________________________ CXR Larus 80 100 400 Issue 2 July 2006 2 3...
Страница 29: ...CXR Larus 80 100 400 2 4 Issue 1 July 2006 ______________________________________________________________...
Страница 30: ..._______________________________________________________________ CXR Larus 80 100 400 Issue 2 July 2006 2 5...
Страница 31: ...CXR Larus 80 100 400 2 6 Issue 1 July 2006 ______________________________________________________________...
Страница 39: ...This page is intentionally left blank...
Страница 205: ...__________________________________________________________ 5 77...
Страница 214: ...AB 2 This page is intentionally left blank...
