The modernization of the site zonal networks Stepnogorsk-Kokshetau based fiber-optic line
Lines of communication and the properties of the fiber optic link. Selection of the type of optical cable. The choice of construction method, the route for laying fiber-optic. Calculation of the required number of channels. Digital transmission systems.
Рубрика | Программирование, компьютеры и кибернетика |
Вид | дипломная работа |
Язык | английский |
Дата добавления | 09.08.2016 |
Размер файла | 1,8 M |
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equipment two terminal stations with the bass end of the channel
Bass and transit facilities. . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . .500
HF transit equipment (for primary groups). . . . . . . . . . . . . . . . . . . . . . . .200
- Allocating channels equipment (4, 12, and 24 channels) in a path:
direct passage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30
isolating and introducing four channels. . . . . . . . . . . . . . . . . . . . . . . . . . 350
- Power noise level in the spectrum of the channel PM
(248-252 kHz), powered by input line amplifier in dB:
UAI and SAI -2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -132
SAI -3 and OP. . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . -129
Figure 1 - Scheme of frequency transformation of K-60P transmission system
Figure 2 - The road Stepnogorsk - Kokshetau
Application B
Figure 1 - Block diagram of a synchronous multiplexer SDM-1
Application C
Proposals for selection Timing sources SDH network.
There is a list of recommendations ITU sets standards for most timings: G.803, G.810, G.811, G.812, G.823, G.824.
The main components of the circuit SDH synchronization are:
- a primary reference clock generator - PRC determines the long-term stability of the frequency synchronization;
- secondary (slave) oscillator - SSU (Synchronization Supply Unit), a clock signal regenerating circuit after passing the network elements and serves as a temporary substitute for part of the network in case of failure or loss of connection PRC therewith;
- internal clock in SDH network elements - SETS (SDH Equipment Timing Source), provides greater flexibility in the choice of signals for synchronization.
These clock sources have the following characteristics.
There are two types of PRC - Autonomous and RC on the GPS satellite navigation system (ITU G.811):
- output interface 2048 MHz and 2048 kbit / s (ITU Recommendation G.703);
- own accuracy: ± 110E-11.
The secondary (slave) clock generator SSU - the second level of the quality of the synchronization equipment hierarchy. Its characteristics (ITU Recommendation G.812):
- input interface 2048 MHz, 2048 kbit / s (ITU Recommendation G.703);
- output interface 2048 MHz and 2048 kbit / s (ITU Recommendation G.703);
- own accuracy: 210E-9 ... 310E-7.
SDH synchronization source in SETS equipment connected to the input or output signals through interfaces of the network element, or transmitting payload synchronization interfaces.
Features (ITU Recommendation G.813):
- clock inputs:
- T1 source - SDH, (STM-N) (G.707);
- T2 power - PDH, 2048 kbit / s (G.703 / 704);
- T3, the source - clock 2048 MHz or 2048 kbit / s (G.703 / 704);
- clock outputs:
a) T4, external synchronization signal 2048 MHz (G.703);
b) T4, 2048 kbit / s (G.703 / 704).
- own accuracy: ± 4,6 • minimal 10E-6.
SETS Block diagram shown in Figure 1.
Figure 1 - Synchronization SDH equipment
For transporting the synchronization signal in the SDH network typically used payload signals (traffic). To meet the quality standards of international digital connections (G.822) the primary clock source must comply with PRC standard (G.822).
For secure synchronization, SDH multiplexers network should have multiple redundant clock sources:
- PRC or the source of the signal quality is not lower than PRC;
- Secondary clock (SSU);
- Your own timing source (SETS).
The maximum allowable number of network elements of the network (NE) between the two SSU is 20, the maximum number of SSU in the chain synchronization - 10. Total number of consecutive sync items (NE and SSU) shall not exceed 60.
Self-healing SDH network structure in a crash on the network perform automatic reconfiguration of the synchronization, which is controlled by a time-marker and priority switching of SDH equipment. The criterion for switching sources in synchronization network elements are the following events:
- LOS (loss of signal);
- LOF (loss cycle);
- AIS (Alarm Indication Signal);
- TMA (alarm synchronization marker);
- Exc.BER (10 bit error rate).
Information about the quality of the timing source is transmitted in bits 5-8 S1 byte header MSOH STM-1 frame. Table 2 contains the information contained in the byte synchronization marker SSM.
Table 2 - The information in byte synchronization marker SSM
The values of bits 5-8 byte SM |
The quality of the synchronization signal |
The level of quality |
|
0010 |
PRC (G.811) |
Q1 |
|
0100 |
SSU-A, transit (G.812T) |
Q2 |
|
1000 |
SSU-B, local (G.812L) |
Q3 |
|
1011 |
SEC (G.813) |
Q4 |
|
0000 |
Unknown quality |
Q5 |
|
1111 |
Not used |
Q6 |
The PRC, SSM when receiving the value of bits 5-8, 0010, each network element is synchronized with this reference oscillator Q1 quality.
SSU-A, when receiving SSM bits 5-8 the value 0100 indicates the use of a timing source, respectively G.812T ITU-T with a level of quality Q2.
SSU-B, Q3 quality is almost an order of magnitude lower than for transit SSU.
SEC, SSM source clock multiplexer synchronization marker byte is sent when the priority list are no other sources of clock signals.
Quality is not known: the SSM byte is transmitted by the network element in the STM output as long as the internal crystal oscillator is not synchronized with the incoming clock signal sources.
To synchronize the unused byte synchronization marker with a value of 5-8 bits 1111 (Q6) is transferred automatically in the case of SDH-sync port in the opposite direction. This prevents the formation of the loop synchronization.
The basic requirement when planning the synchronization network is the availability of primary and backup synchronization signal pathways, in compliance with the required hierarchy, as well as the lack of opportunities for a closed loop synchronization.
Signal distribution network with land-Kokshetau Stepnogorsk shown in Figure 1
The network element located in the city of Kokshetau appointed master (master node). On it sync signal from an external reference source PRC (Q1) at a frequency of 2048 kHz from the INSM. He is the first priority of the planned network. A highly accurate time generator is a strategic object, and therefore his whereabouts secret.
An alternative source for the synchronization master node SDH network is designed AMTS in Kokshetau. Summary Q1 synchronization is distributed in the STM-1 signal successively to the nodes Shchuchinsk, Stepnogorsk Saul and with first priority for these sites (Table 3).
Figure 1 - Distribution of SDH network synchronization with the site-Kokshetau - Stepnogorsk.
Table 3 - Distribution synchronization sources
Network element |
Source of first priority |
The source of the second priority |
|
Kokshetau |
The signal with frequency 2048 kHz from PRC NISB |
The signal with frequency 2048 kHz from ATE |
|
Shuchinsk |
Linear signal STM-1 on the node Kokshetau |
Linear signal STM-1 on the node Saule |
|
Saule |
Linear signal STM-1 on the node Shuchinsk |
Linear signal STM-1 on the node Stepnogorsk |
|
Stepnogorsk |
Linear signal STM-1 on the node Saule |
Own the signal from node Stepnogorsk |
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