KR100431464B1 - System and Method of Connecting Alarm Signals - Google Patents

Abstract

The present invention relates to an alarm signal connection system and method for connecting an alarm signal by mixing a daisy-chain method and a one-to-one connection method.

The system of the present invention reads the alarm information of the corresponding slot after transmitting the slot address, and manages the redundant board by receiving a cable-mounted position, a hernia signal, a power error signal, and a function error signal; A plurality of subscriber self connected in a daisy chain by a predetermined number and connected one to one to the management board; Redundant through the subscriber self is characterized in that it comprises a plurality of alarm boards to inform the management board by sharing the cable hernia signal, hernia signal, power error signal and functional error signal between each other. In addition, the method of the present invention includes the steps of transmitting read / write signals, control signals and address data in the management board; Receiving the read / write signal from an alarm board and reading address data to check whether the address is its own address; Reading alarm information of a slot from an alarm board and transmitting a cable connection signal and a valid signal together; Checking alarm information of the slot by receiving a cable connection signal and a valid signal from the management board; In the case of a cable hernia, a process of checking the eject error or the power error state of the previous alarm board is performed by switching from the management board to the redundant counterpart alarm board.

Description

System and Method of Connecting Alarm Signals

The present invention relates to an alarm signal connection system and method, and more particularly, to an alarm signal connection system and method for connecting an alarm signal by mixing a daisy-chain method and a one-to-one connection method.

The alarm signal connection system by a management program (eg, CellBit1.0) that has been developed and used in the related art has a subscriber self 11, an alarm signal collection board 12, and a management board (as shown in FIG. 1). 13), a plurality of front boards 14-1 to 14-n, and a plurality of rear boards 15-1 to 15-n.

Here, the subscriber self 11 has one alarm signal collection board 12 and is connected to the management board 13 one-to-one through a bidirectional communication cable, and the management board 13 connects four connection terminals. As a whole, the system can have a maximum of four subscribers 11. In addition, the subscriber self 11 has 20 slots in which boards can be mounted, and each of the slots has an individual slot address.

The management program is operated through the alarm signal collection board 12 and the management board 13, and the management program reads alarm information of all boards mounted on the subscriber self 14 at intervals of about 3 seconds. It is designed to notify the system operator.

Looking at the operation of the alarm signal connection system having the configuration as described above are as follows.

First, the management board 13 transmits a slot address to the alarm signal collection board 12 through a one-to-one bidirectional communication cable, and reads the alarm information of the slot from the alarm signal collection board 12. .

At this time, the bidirectional communication cable connecting the alarm signal collection board 12 and the management board 13 in a one-to-one configuration is composed of 7 (bit) of TTL (Transistor-transistor Logic), and the corresponding TTLs are each 'R_WB'. , 'CS_B' and 'AD (0: 4)', wherein the communication protocol is shown in FIG. 2.

Accordingly, the slot address of the corresponding slot from which the alarm information is to be read from the alarm signal collection board 12 by the management program is transmitted through the management board 13 to the corresponding 'AD (0: 4)' and the corresponding 'R_WB' '' To the 'high' level.

When the 'R_WB' is 'high' level, the alarm signal collection board 12 reads a slot address to prepare alarm information of the corresponding slot.

On the other hand, when the 'CS_B' is 'low' level, the alarm signal collection board 12 transmits the alarm information of 4 (Bit) to the management board 13 through 'AD (0: 3)' give. At this time, the 'AD (0: 3)' delivers the slot address and the alarm information in both directions.

Thereafter, the above operation is repeated while the slot address is changed by the management program, and alarm information of all slots is read.

However, in the case of an extended management program (e.g., CellBit2.0), the switching capacity is 2.5 times that of the management program (e.g., CellBit1.0) that is already developed and used, and the number of subscribers self accommodated in the system is about 2 It can accommodate 10 times that of a ship.

However, as described above, the conventional management board has only four alarm cable connection terminals, and due to the system configuration already established, it is not possible to physically increase the corresponding alarm cable connection terminals and thus cannot handle the increased subscriber self, and also TTL. Since the address and the alarm information is received and received, the length of the alarm cable is long, there is a problem that noise may occur in the corresponding alarm cable and false alarm information may be transmitted.

As a solution to the existing problems described above, there is a method of transmitting and receiving address and alarm information by using an ECL (Emitter Coupled Logic) using a daisy chain, but a problem that may occur when using the daisy chain is a cable. In this case, the board may be disconnected or the board may not operate due to a power failure.

In order to solve the problems as described above, the present invention is to mix the daisy chain method and one-to-one connection method to connect the alarm signal, to modify the management program that is already developed and in use to the management program is expanded to a minimum It is intended to be suitable for connecting alarm signals so that they can be used.

In addition, the present invention connects the alarm signal so that the management program already developed and in use can be used in the management program whose capacity is expanded with minimal modifications, and also affects the daisy chain even when an error occurs in the alarm board by using an additional circuit. The purpose of the present invention is to solve the problem of scalability of the conventional alarm signal connection system while maintaining an alarm information collection protocol by a management program that is already developed and in use.

1 is a block diagram showing a conventional alarm signal connection system.

2 is a timing diagram illustrating a communication protocol in FIG. 1;

3 is a block diagram showing an alarm signal connection system according to an embodiment of the present invention.

4 is a block diagram illustrating an additional circuit portion in FIG. 3; FIG.

5 is a flowchart illustrating an alarm signal connection method according to an exemplary embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

20: Management board 31 to 42: subscriber self

51-1 ~ 62-1: Active Alarm Board

51-2 ~ 62-2: Standby Alarm Board

71 ~ 74: Self Group

80: multiplexer section 90: control section

100: OSC (Oscillator)

Alarm signal connection system according to an embodiment of the present invention for achieving the above object reads the alarm information of the slot after the transmission of the slot address, the location where the cable is mounted, hernia signal, power error signal and A management board for receiving a function error signal and performing redundant switching; A plurality of subscriber self connected in a daisy chain by a predetermined number and connected one to one to the management board; Redundant through the subscriber self is characterized in that it comprises a plurality of alarm boards to inform the management board by sharing the cable hernia signal, hernia signal, power error signal and functional error signal between each other.

Alternatively, the alarm signal connection system according to an embodiment of the present invention includes a multiplexer unit for storing the alarm information of the slot and selecting and outputting the stored alarm information according to the control signal; The control signal is applied to the multiplexer according to the read / write signal and the slot address of the management board, and the alarm information applied from the multiplexer according to the control signal of the management board is managed together with the cable connection signal and the valid signal. Characterized in that further comprises a control unit for outputting to the board.

On the other hand, the alarm signal connection method according to an embodiment of the present invention for achieving the above object comprises the steps of transmitting a read / write signal, a control signal and address data in the management board; Receiving the read / write signal from an alarm board and reading address data to check whether the address is its own address; Reading alarm information of a slot from an alarm board and transmitting a cable connection signal and a valid signal together; Checking alarm information of the slot by receiving a cable connection signal and a valid signal from the management board; In the case of a cable hernia, a process of checking the eject error or the power error state of the previous alarm board is performed by switching from the management board to the redundant counterpart alarm board. Here, the cable connection signal is a signal for checking the connection state of the cable in the management board, the valid signal is characterized in that the signal to inform the management board whether the alarm board is normal.

Alternatively, the alarm signal connection method according to an embodiment of the present invention is a process of collecting the alarm information through the upper alarm board by controlling so as not to affect the daisy chain in the event of hernia board power or power error or eject error Characterized in that further comprises. The alarm information collecting process may include checking whether a hernia of the alarm board is generated by receiving a valid signal through the alarm board; Switching to a redundant counterpart alarm board when a hernia of the alarm board occurs; Receiving a valid signal through the switched counterpart alarm board to determine whether it is an eject error or power error state of an upper alarm board; And in the event of an eject error or power error of the upper alarm board, switching to a redundant counterpart upper alarm board to collect alarm information of the upper slot.

The present invention connects an alarm signal by mixing a daisy chain method and a one-to-one connection method, and the management program (eg, CellBit2. The alarm signal can be connected for use in 0) and additional circuits are used to prevent the daisy chain from being affected even if an error occurs in the alarm board. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the alarm signal connection system according to an embodiment of the present invention includes a management board 20, a plurality of subscribers self 31 to 42, an active mode, and a standby mode. Alarm boards 51-1 to 62-1, and 51-2 to 62-2, which are redundantly formed.

Here, the management board 20 transmits a slot address to the alarm boards 51-1 to 62-1 and 51-2 to 62-2, and the alarm boards 51-1 to 62-1 and 51-2. 62-2) reads the alarm information of the corresponding slot, and in the case of cable hernia, the alarm board (51-1 to 62-1, 51-2 to 62-2) is informed of the location where the cable is detached. The active alarm boards 51-1 to 62-1 and a cable are transferred to the standby alarm boards 51-2 to 62-2 with a cable, and the alarm boards 51-1 to 62-1 and 51-. When a problem such as a power failure or a power failure occurs between 2 and 62-2, a hernia signal, a power error signal, and a function error are detected from the alarm boards 51-1 to 62-1 and 51-2 to 62-2. Error) signal is applied to switch the active alarm boards 51-1 to 62-1 and the cable to the standby alarm boards 51-2 to 62-2.

In addition, the subscribers self (31 ~ 42) are daisy chained three by one to one to one corresponding to the management board (20). That is, three subscriber selves 31 to 42 are connected by daisy chains, and the subscriber selves 31 to 42 form up to four self groups 71 to 74 connected by daisy chains of three subscriber selves 31 to 42, respectively. Since the groups 71 to 74 are connected to the management board 20 in a one-to-one manner, a total of 12 subscribers self 31 to 42 are connected to the management board 20. This means that the maximum number of subscribers that can be mounted by the alarm signal connection system by the expanded management program (eg, CellBit2.0) is 10, whereas the maximum possible implementation of the alarm signal connection system according to an embodiment of the present invention is possible. There are two more subscribers.

In addition, the alarm board (51-1 ~ 62-1, 51-2 ~ 62-2) and the cable is made of a redundant, the redundant alarm board (51-1 ~ 62-1, 51-2 ~ 62- 2) sharing the cable hernia signal between the informing the management board 20 where the cable is mounted, the hernia signal between the redundant alarm board (51-1 to 62-1, 51-2 to 62-2) In addition, a power error signal and a function error signal are shared and notified to the management board 20, which may minimize a problem when a problem occurs in the board or a cable is detached.

In addition, by limiting the number of times daisy chaining the subscribers self (31 to 42) to three or less times, even if a problem occurs in the board or the cable is hermetically limited to three subscribers self (31 to 42).

In addition, the alarm signal connection system according to an embodiment of the present invention has been developed and minimized to minimize the problems caused by the daisy chain with minimal modification to the contents of the system by the management program (eg, CellBit1.0). As shown in FIG. 4, for example, an additional circuit including a multiplexer unit 80, which is TI's SN75ALS71A, and a controller 90 may be provided in the alarm boards 51-1 to 62-1 and 51-2 to 62. -2) is included. That is, when a problem occurs in the alarm boards 51-1 to 62-1 and 51-2 to 62-2, unlike the cable hernia, the alarm board 51-1 to 62-1, 51-2 ~ 62-2) do not affect the daisy chain.

Here, the multiplexer unit 80 is a chip capable of point-to-multipoint communication and ECL to TTL bidirectional communication. The multiplexer unit 80 and the controller 90 are 25 Driven by the OSC 100 at (MHz) and connected to each other via a bus switch, the alarm boards 51-1 to 62-1, 51-2 to 62-2 are detached or a problem such as a power error occurs. In this case, the output of the corresponding bus switch is changed to 'high impedance' to avoid affecting the daisy chain.

In addition, the multiplexer unit 80 includes a power state signal, a front board detachment / mounting state signal, a rear board detachment / mounting state signal, and a function error signal received from the active alarm boards 51-1 to 62-1. Multiple buffers 81-1 to 81-4 that store and output eject error signals, power error signals, and cable error signals received from the standby alarm boards 51-2 to 62-2, that is, alarm information of slots. ) And read alarm information data from the respective buffers 81-1 to 81-4, and select one of the read alarm information data according to a control signal applied from the controller 90 to control the controller 90. It includes a selection unit 82 for applying to.

The controller 90 selects alarm information data applied from the multiplexer 80 and the alarm boards 51-1 to 62-1 and 51-2 according to the control signal CS * of the management board 20. 62-2), a transmitter 91 for outputting a cable connection signal and a valid signal applied to the fifth and sixth address data AD4 and AD5 together, and a corresponding transmitter ( Matching unit 92 for transmitting data applied from 91 to the management board 20, a read / write signal RW_B applied from the management board 20, and the matching unit from the management board 20. And a receiver 93 for outputting a control signal to the multiplexer 80 according to the slot address applied through 92.

An alarm signal connection method according to an exemplary embodiment of the present invention will be described with reference to the flowchart of FIG. 5.

First, when the active alarm boards 51-1 to 62-1 perform a normal operation, the management board 20 uses a conventional management program (eg, CellBit1.0) as shown in the timing diagram shown in FIG. 2. Similarly, the read / write signal RW_B, the control signal CS *, and the address data AD (0: 5) are transmitted to the corresponding active alarm boards 51-1 to 62-1 (step S1). .

At this time, as the number of active alarm boards 51-1 to 62-1 to read alarm information increases, only the address data AD (0: 5) needs to be increased from 5 (Bit) to 6 (Bit). That is, since the number of subscriber self connected by daisy chaining to 20 slots is 3, the total is 60 (that is, 20 (Slot) * 3 (Shelf)).

Accordingly, the active alarm boards 51-1 to 62-1 receive the read / write signal RW_B from the management board 20 to read the address data AD (0: 5) to correspond to itself. Check whether it is an address (step S2), and if the address corresponds to itself in the second step (S2), the alarm information of the corresponding slot is read and transmitted to the management board 20, at which time the cable connection signal (Cable The connection signal and the valid signal are sent together as the fifth and sixth address data AD4 and AD5 (step S3).

Here, the cable connection signal is used to check the connection state of the cable in the management board 20, and the valid signal indicates whether the active alarm boards 51-1 to 62-1 are normal. 20).

On the other hand, when it is not the address corresponding to itself in the second step S2, the alarm boards 51-1 to 62-1 and 51-2 to 62-2 have the next read / write signal RW_B. Wait (step S4).

Accordingly, the management board 20 receives a cable connection signal and a valid signal from the active alarm boards 51-1 to 62-1 and checks alarm information of the corresponding slot. In this case, the fifth address data AD4 is used. ) Is a case where the cable is detached to an error state (step S6).

Then, if the cable is disconnected in the sixth step (S6), the management board 20 performs the transfer to the standby alarm board (51-2 ~ 62-2), which is the duplicated board immediately duplicated (step S7).

Accordingly, the standby alarm boards 51-2 to 62-2 switch to the active state to manage the eject error or power error state of the previous active alarm boards 51-1 to 62-1. Since the board 20 is notified, the management board 20 receives an eject error signal or a power error signal, so that the eject error state or power of the previous active alarm boards 51-1 to 62-1 is received. Check the error condition (step S8)

On the other hand, unlike when the cable is detached in the sixth step S6, when the standby alarm boards 51-2 to 62-2 are detached or a power error or eject error occurs, the daisy chain is affected. Alarm information can be collected through the upper active alarm board (step S9), for example, the active alarm board 51-1 of the first subscriber self 31 is detached and the second subscriber self 32 is set. The case where the standby alarm board 52-2 in Fig. 2) is in a power error state will be described as follows.

First, the management board 20 tries to collect alarm information of the first subscriber self 31 through the first active alarm board 51-1, as in the operation of the fourth step S4. It is checked whether the sixth address data AD5 is a case where the first active alarm board 51-1 is mounted in an error state among the read values.

In this case, the management board 20 performs a switchover to the first standby alarm board 51-2, which is a counterpart board that is immediately duplicated, as in the operation of the fifth step S5.

Thereafter, the management board 20 tries to collect alarm information of the upper second subscriber self 32 through the first standby alarm board 51-2, but the sixth address is read among the read values. It is determined whether the data AD5 is in an error state and the second standby alarm board 52-2 is in a power error state.

In this case, the management board 20 performs the transfer to the second active alarm board 52-2, which is a duplicated counterpart board immediately, as in the operation of the fifth step S5, and corresponding second active alarm. The alarm information of the second subscriber self 32 is collected through the board 52-2.

Therefore, since the first active alarm board 51-1 of the hermetically detached first subscriber self 31 does not affect the daisy chain, the management board 20 is configured to provide the alarm boards 51-1 to 62-1. , 51-2 to 62-2) can be used to collect alarm information.

As described above, it is possible to solve the problem of the scalability of the conventional alarm signal connection system while maintaining the alarm information collection protocol by the management program already developed and used by the present invention, and by using an additional circuit to the alarm board. In the event of a fault, it is possible to prevent the daisy chain from being affected.

Claims (6)

A management board which reads the alarm information of the corresponding slot after transmitting the slot address and receives the cable-mounted position, the hermetic signal, the power error signal, and the function error signal for redundant switching; A plurality of subscriber self connected in a daisy chain by a predetermined number and connected one to one to the management board; The alarm signal connection system comprising a plurality of alarm boards configured to be redundant through the subscriber self and inform the management board by sharing cable hernia signals, hernia signals, power error signals, and function error signals with each other. . The method of claim 1, A multiplexer unit for storing the alarm information of the slot and selecting and outputting the stored alarm information according to a control signal; The control signal is applied to the multiplexer according to the read / write signal and the slot address of the management board, and the alarm information applied from the multiplexer according to the control signal of the management board is managed together with the cable connection signal and the valid signal. Alarm signal connection system, characterized in that further comprises a control unit for outputting to the board. Transmitting read / write signals, control signals, and address data from the management board; Receiving the read / write signal from an alarm board and reading address data to check whether the address is its own address; Reading alarm information of a slot from an alarm board and transmitting a cable connection signal and a valid signal together; Checking alarm information of the slot by receiving a cable connection signal and a valid signal from the management board; In the case of a cable hernia, the alarm signal connection method comprising the step of switching from the management board to a redundant counterpart alarm board to check the eject error or power error status of the previous alarm board. The method of claim 3, The cable connection signal is a signal for checking a connection state of a cable in the management board, the valid signal is an alarm signal connection method, characterized in that the signal to inform the management board whether the alarm board is normal. The method of claim 3, The alarm signal connection method further comprises the step of collecting the alarm information through the upper alarm board by controlling so as not to affect the daisy chain in the event of hernia or power error or eject error of the alarm board. The method of claim 5, The alarm information collecting process may include checking whether a hernia of the alarm board is generated by receiving a valid signal through the alarm board; Switching to a redundant counterpart alarm board when a hernia of the alarm board occurs; Receiving a valid signal through the switched counterpart alarm board to determine whether it is an eject error or power error state of an upper alarm board; And collecting alarm information of an upper slot by switching to a redundant counterpart upper alarm board in an eject error or power error state of the upper alarm board.