KR100551167B1 - Reference Synchronization Time Signal Detection System of Code Division Multiple Access System - Google Patents

Abstract

The present invention provides a code division multiplex for detecting whether a reference synchronization time signal is output from a duplication time / frequency generator that generates a pulse synchronization time signal (Pulse Per 2 Seconds (PP2S)) that is a synchronization reference for a call processing operation. The present invention provides an apparatus for detecting a reference synchronous time signal of a connection system. The present invention outputs an interrupt to the CPU when the PP2S is output from the time / frequency generator in an active state, and receives the next interrupt when the CPU receives the interrupt. Create a process to detect and run an internal timer to check for the next interrupt. The CPU spawns a process each time an interrupt is received and terminates the process just received once the next interrupt is detected after one cycle of PP2S. If the next interrupt is not detected, the CPU determines that the PP2S is not being output from the time / frequency generator and controls to generate an alarm. By detecting whether the PP2S is being output periodically and continuously by the internal timer driving, it is possible to provide a stable PP2S to improve the stability and reliability of the system.

Description

Reference Synchronization Time Signal Detection Device of Code Division Multiple Access System

The present invention relates to a mobile communication system using a code division multiple access (CDMA) scheme, such as a cellular mobile communication system, a personal communication system (PCS), and particularly, to generate time / frequency. A reference synchronization time signal detection apparatus of a code division multiple access system for detecting whether a reference synchronization time signal (PP2S) is output from an apparatus.

In general, the time / frequency generator receives a TOD (Time Of Day) and a 10 MHz and a time clock (1 PPS) from a GPS (Global Positioning System) receiver, and the reference synchronization is used as a reference for call processing operation in a base station of a CDMA system. Generate a time signal (Pulse Per 2 Seconds; PP2S). Here, the TOD is information about time, such as year, day, hour, minute, second, etc., which are output every even second, and 10 MHz is a frequency that is a reference frequency of division when generating a reference clock (19.6608 MHz). The time clock (1 Pulse Per Second) is a pulse signal generated every second.

A typical time / frequency generator is mounted in a base station and is redundantly implemented for the accuracy and reliability of the CDMA system. The reference synchronization time signal is generated by a time / frequency generator set to active among the redundant time / frequency generators. This reference synchronization time signal is transmitted to the channel card, and becomes a synchronization reference during call processing operations such as soft hand off of the channel card.

Then, if the reference synchronization time signal is not output from the time / frequency generator, the time / frequency generator does not have a function to detect whether the reference synchronization time signal is being output, indicating that there is no output of the reference synchronization time signal. do not know. Accordingly, the active time / frequency generator is continuously operated, and the channel card does not receive the reference synchronization time signal and thus cannot perform the call processing operation.

Since the error is not detected even when the reference time signal is not output in the general time / frequency generator, there is a problem that a switching operation to the preliminary time / frequency generator does not occur.

In addition, since the channel card does not receive the reference synchronization time signal, there is a problem that the call processing operation cannot be performed.

In addition, it is difficult to identify the cause of the error, there was a problem that the reliability and stability in terms of system operation is degraded.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, and an object of the present invention is to generate an interrupt when the reference synchronous time signal PP2S is generated from the time / frequency generator and generate a reference synchronous time. By providing a reference synchronization time signal detection apparatus of a code division multiple access system that can improve the reliability of the system by detecting whether the reference synchronization time signal is output by checking whether or not this interrupt is generated at each signal cycle. There is.

In order to achieve the above object, the apparatus for detecting a reference synchronization time signal of a code division multiple access method system according to the present invention generates a reference synchronization time signal (Pulse Per 2 Seconds; PP2S) that is a synchronization reference for a call processing operation. When the reference synchronous time signal is output from the redundant time / frequency generator in an active state, an interrupt is generated to the CPU. Each time the CPU receives an interrupt, it creates a process to detect the next interrupt, starts an internal timer, and checks for the next interrupt. If the next interrupt is received after one cycle of the reference synchronization time signal, the previous process is terminated. If the next interrupt is not received, the alarm is signaled to indicate that the reference synchronization time signal is not being output from the time / frequency generator. . The internal timer drive detects whether the reference synchronization time signal is being output periodically and continuously, thereby improving system stability.

Hereinafter, a reference synchronization time signal detection apparatus of a code division multiple access system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a reference synchronization time signal detection apparatus of a CDMA system according to the present invention.

As shown therein, the PP2S generator 1 generates a reference synchronization time signal serving as a synchronization reference of the call processing operation; A PP2S detector (10) for detecting whether a reference synchronization time signal is output from the PP2S generator (1); A fault signal generator 20 generating a fault signal when the PP2S detector 10 detects no output of the reference synchronization time signal; When the fault signal is generated in the fault signal generator 20, the fault signal generator 20 includes a redundant controller 30 that controls switching of the redundant time / frequency generator.

The PP2S detector 10 periodically checks whether the interrupt generator 11 generates an interrupt based on the reference synchronization time signal generated by the PP2S generator 1 and whether the interrupt is generated from the interrupt generator 11. And CPU 12 for detecting whether or not the reference synchronization time signal is output.

The operation of detecting the presence or absence of the output of the reference synchronization time signal of the CPU 12 is shown in FIG.

As shown, a first step (ST11-ST12) for checking whether one cycle of the reference synchronization time signal has elapsed by driving an internal timer when an interrupt is generated in the interrupt generator (11); If one cycle has elapsed as a result of the check, it is checked whether an interrupt is received from the interrupt generator 11, and if an interrupt is not received, the time / frequency generator 1 notifies that a reference synchronization time signal is not output. A second step ST13-ST15 for controlling an alert to be transmitted; In response to the interrupt reception check result, if the interrupt is received, the time / frequency generator 1 determines that the reference synchronization time signal is being output, and returns to the cycle elapsed check step ST12 of the first steps ST11 to ST12. This is accomplished by performing three steps ST14 and ST16-ST17.

The operation of the apparatus for detecting the reference synchronization time signal of the code division multiple access system according to the present invention configured as described above will be described in detail as follows.

First, as shown in FIG. 2, when the reference synchronization time signal PP2S is generated high by the PP2S generator 1, the interrupt generator 11 causes the CPU 12 to generate PP2S. An interrupt is generated to the CPU 12 so that it can be recognized. The time when the interrupt signal is low active is such that the CPU 12 can recognize the interrupt after PP2S is activated.

On the other hand, as shown in Fig. 4A, the CPU 12 drives an interrupt handler for processing an interrupt for notifying the output of the PP2S (ST21). This interrupt handler stores the CPU information immediately before this interrupt when an interrupt informing the output of the PP2S is generated, and releases the interrupt by returning the information just before the interrupt when processing the interrupt is performed.

Then, when the interrupt handler recognizes the low-active interrupt signal, the CPU 12 generates a process for detecting the output of the PP2S and performs the PP2S presence check routine (ST22, ST23).

As shown in FIG. 4B, the process of performing the PP2S presence check routine increases the external variables for the PP2S presence check since the previous state is not an alarm indicating the no output of the PP2S (ST31, ST34). This external variable is a variable that CPU 12 can access in every process that the CPU 12 generates to detect the presence or absence of PP2S output, and is increased when an interrupt is received.

Replace the increased external variable value with the internal variable for PP2S existence test (ST35). The internal variable for checking the presence or absence of PP2S is a variable that can be accessed only in the current process, and is used to detect whether an interrupt is received in the next cycle (the cycle of PP2S).

After substitution, the process runs an internal timer.

On the other hand, after 2 seconds, which is one period of the PP2S, when the PP2S is output in the high active state from the PP2S generating unit 1, the interrupt generating unit 11 generates an interrupt. Then, the CPU 12 recognizes the interrupt and generates a new process by the interrupt handler constantly monitoring whether the interrupt is generated from the interrupt generator 11 (ST22, ST23).

The newly created process performs a PP2S presence check routine. First, it is checked whether the previous state is a state where an alarm due to no PP2S output has occurred (ST31). Since the alarm is not generated, the external variable is increased (ST34). Subsequently, the external variable is replaced with the internal variable for the PP2S presence check of this process, and another internal timer is driven (ST35 and ST36).

On the other hand, the previous process, which was previously created to perform the PP2S presence check routine, compares the internal and external variables of the process after 2 seconds + a predetermined time (time required for the external variable value to be newly increased). (ST38). At this time, since the internal variable is a variable that only the process can access, it maintains the value before the external variable is increased. Therefore, since the internal variable and the external variable are not the same as the result of the comparison, the process ends by determining that an interrupt has occurred. When the process is terminated, the internal timer started by the process is cleared and the internal variables are destroyed.

The current process compares the internal variable with the external variable when 2 seconds + a predetermined time elapses by the internal timer driven (ST38). At this time, if the PP2S signal is not output in the active state from the PP2S generator 1, the interrupt generator 11 does not generate an interrupt. Accordingly, the value of the external variable does not change, and as a result of comparing the internal variable with the external variable in the current process, the internal variable and the external variable become the same. Thus, the current process determines that the PP2S is not being output and outputs a signal for controlling the alarm transmission (ST39).

The fault signal generation unit 20 then outputs a fault signal to the redundancy control unit 30 according to the alarm transmission control signal of the CPU 12, and the redundancy control unit 30 responds to the active time / frequency by this fault signal. The generator is controlled to be disabled and the preliminary time / frequency generator is to be enabled.

In this way, the CPU 12 generates a new process each time the PP2S is output and checks whether the PP2S is output, and periodically checks whether the PP2S is continuously output and immediately reserves time / frequency when detecting no output of the PP2S. To the generator. This prevents the problem that call processing cannot be performed by not transmitting PP2S to the channel card.

As described above, the reference synchronous time signal detection apparatus of the code division multiple access method system according to the present invention generates an interrupt when the reference synchronous time signal PP2S is generated from the time / frequency generator and generates the reference synchronous time. By checking whether this interrupt is generated at each cycle of the time signal, and detecting whether or not the reference synchronous time signal is being output, the control is performed so that a preliminary time / frequency generator is immediately switched if the reference synchronous time signal is not output. It is effective to solve the service interruption problem caused by the absence of the reference synchronization time signal.

In addition, by detecting the presence or absence of the output of the reference synchronization time signal, the reference synchronization time signal is continuously provided, thereby improving the system stability and reliability.

1 is a block diagram of a reference synchronization time signal detection apparatus of a CDMA system according to the present invention;

2 is a timing diagram showing a relationship between generation of a reference synchronization time signal and an interrupt signal;

3 is a flowchart illustrating a method of detecting a reference synchronization time signal performed by a PP2S detector;

4A and 4B are flowcharts illustrating an embodiment of a method for detecting a reference synchronization time signal.

<Explanation of symbols for the main parts of the drawings>

1: PP2S generating unit 2: Channel card

10: PP2S detector 11: Interrupt generator

12: CPU 20: fault signal generator

30: redundancy control unit

Claims (3)

In a code division multiple access method system having a duplication of a time / frequency generator that generates a reference synchronization time signal (Pulse Per 2 Seconds (PP2S)) that is a synchronization reference for a call processing operation, An interrupt generator for generating an interrupt when a reference synchronization time signal is output in an active state from an active time / frequency generator of the redundant time / frequency generator; And a CPU for checking whether the interrupt from the interrupt generator is periodically and continuously generated to detect the output of the reference synchronous time signal. The method of claim 1, A fault signal generator for generating a fault signal when no output of a reference synchronization time signal is detected by the CPU; When the fault signal is generated in the fault signal generator, the reference synchronization of the code division multiple access method system further comprises a redundancy control unit for controlling switching to a preliminary time / frequency generator among the redundant time / frequency generators. Time signal detection device. The method of claim 1, wherein the CPU, Whenever an interrupt is generated in the interrupt generator, a process is generated to drive an internal timer. If a next interrupt is detected after one cycle of the reference synchronization time signal, the previously generated process is terminated, and the next interrupt is not generated. Otherwise, the reference synchronization time signal detection device of a code division multiple access method system, characterized in that the control is transmitted so that an alarm indicating the no output of the reference synchronization time signal.