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Method and device for realizing main backup of clock in synchronizing system

A technology of synchronization system, master and backup, applied in the direction of synchronization device, transmission system, digital transmission system, etc., can solve the problems of phase inconsistency, discontinuity, continuity, etc.

Inactive Publication Date: 2004-12-08
ZTE CORP
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Due to reasons such as phase resolution and phase randomness, the phase difference between the active and standby clock boards may be any value within the half cycle of the voltage-controlled oscillator (VCO) output frequency. The phases of the main and standby clock boards are continuous, and the phases of the output clocks of the main and standby clock boards are inconsistent. For example, if a 16.384MHZ VCO is used in the program-controlled switch system, the phase difference between the output clocks of the main and standby clock boards is roughly between 0 and 30ns. If the main and standby clock boards are switched, There will be a change in the clock duty cycle of one clock cycle, so the phase discontinuity occurs. Even if the master-standby seamless switch can be achieved, that is, there is no time interval between the main output being turned off and the standby output being turned on, it cannot be prevented. The occurrence of the above-mentioned phase discontinuity causes delay in the implementation process of active / standby switchover
[0006] 2. Use the method of long and short pins to realize the main and standby switching. The disadvantage of this method is that it needs the cooperation of connectors;
Since the switchover can only be done through a single board, the active / standby selection can only be made through the operation of this board. If the board fails, the active / standby switchover cannot be completed. Therefore, the device does not achieve real hot switching

Method used

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  • Method and device for realizing main backup of clock in synchronizing system
  • Method and device for realizing main backup of clock in synchronizing system
  • Method and device for realizing main backup of clock in synchronizing system

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Embodiment Construction

[0029] Such as figure 1 As shown, it is a functional block diagram of the main-standby switching circuit provided by the present invention. The main-standby switching device involved in the present invention adopts a main-standby switching circuit including a lock-main circuit 101, a same-master elimination circuit 102, and a switching window control circuit 103 . The switching signal generating circuit 104 and the switching output signal processing circuit 105 .

[0030] The lock master circuit 101 is used to lock the state of the master board in the synchronization system. Once a board in the system is active, unless there is an active-standby switchover due to human control or system failure, the board will always be active, which can prevent the main-standby oscillation due to interference in the system;

[0031] The common master canceling circuit 102 is used to avoid the situation that two single boards are mastered at the same time. When due to some reasons (such as c...

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Abstract

A device implementing the main and backup clock in synchronism system includes the circuit for reversing the main to the backup. The reversing circuit includes the circuit for locking the main, the circuit for removing the main, the circuit for generating the reversing signal, the reversed signal output processor. The invention can either avoid the state of which the two boards are as the main at same time, also can eliminate the phase oscillation at state of the main, meanwhile can reduce the time delay for reversing the main to the backup.

Description

technical field [0001] The invention relates to a master-standby switchover method and device, in particular to a method and device for realizing master-standby (hot backup) and hot switchover of a synchronous clock in a synchronization system in the communication field. Background technique [0002] The main-standby redundant design has been widely used in communication system equipment, especially the hot backup function realized by it has greatly improved the reliability and stability of the equipment. In a synchronous system in the communication field, all single boards or sub-systems work under their synchronous clocks. Therefore, as the core of the synchronous system, the reliability of the clock board is particularly important. Therefore, the clock board must be switched between active and standby. [0003] Currently, in a synchronous system, the devices and methods for realizing active / standby switching of clocks roughly include the followin...

Claims

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Application Information

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IPC IPC(8): H03K19/00H04B1/74H04L7/02
Inventor 刘培章陈颖川李光年王承忠
Owner ZTE CORP
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