KR100249729B1 - Apparatus for communicating between deviceds in backplane - Google Patents

Abstract

The present invention relates to an ATM LAN system, wherein a separate dedicated line is formed between a slot of a backplane on which a functional device is mounted and a slot of a backplane on which the management device is mounted. The message request signal is output through the dedicated line. The management device transmits a status request message to the functional device via the bus when the message request signal is applied from the leased line so that the functional device can transmit a message informing its status to the management device via the bus.

Description

Device-to-device message communication device on the backplane

The present invention relates to an Asynchronous Transfer Mode Local Area Network (ATM LAN) system that is mounted on a backplane and communicates messages over a cell bus. More particularly, a functional device may request a message communication from a management device. Device for communication between devices on a backplane.

The ATM LAN system has a structure in which data and messages between the management device and the functional device (messages between the management device and the functional device for the management device to manage the functional device) are transmitted through the cell bus of the backplane.

In this structure, each device has a cell bus connection function for a cell bus and an interface, but this is for data transmission. A first-in first-out buffer (FIFO) for transmitting and receiving a message is usually configured with a very small size. Under these conditions, all messages are transmitted by the management device for traffic control of message transmission and reception between the management device and the functional device. That is, the management device sends a message to the functional devices, and the functional devices have a configuration that responds to the message, avoiding the functional device sending the message to the management device first.

On the other hand, each functional device may need to notify the management device of the physical or logical problems or changes in status. However, in the conventional system, since the management device periodically transmits a message inquiring about the state of the functional devices and interprets the response, the management device cannot immediately recognize the state of the functional device.

In order to solve this problem, a function device may randomly employ a method of sending a message to a management device. However, in this case, a plurality of functional devices may transmit a message to the management device at a time. There is a problem that the entire message of the device cannot be received.

In addition, in the conventional scheme, since the management device must periodically transmit an inquiry message to the functional device, there is a problem that the load of the management device is increased and the efficiency of the system is lowered.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to enable a functional device to notify a management device of a need for message transmission, thereby enabling the functional device to actively transmit a message to the management device. An apparatus for message communication between devices on a backplane is provided.

1 is a schematic diagram showing an example of a state of a backplane on which an apparatus for inter-device message communication on a backplane according to the present invention is mounted;

2 is a schematic diagram showing a state in which a device is mounted on the backplane according to FIG.

<Description of the code | symbol about the principal part of drawing>

10: management device slot

12 to 18: first to fourth functional device slots

20: management device

22 to 28: first to fourth functional devices

The present invention for achieving this object is a system in which a functional device can transmit a message to a management device via a bus upon receipt of a status request message of the management device via a bus, the slot and management of the backplane on which the functional device is mounted. A separate dedicated line is formed between the slots of the backplane on which the device is mounted; The functional device is configured to output a message request signal via a dedicated line when a message transmission to the management device is required; The management device is configured to send a status request message to the functional device via the bus upon the application of the message request signal from the leased line.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic block diagram of a device-to-device message communication apparatus on a backplane according to the present invention, wherein a management device slot 10 and a plurality of first, second, third, and fourth functional device slots 12, 14, 16, 18 ) Are formed on the backplane of the ATM LAN system in the vertical direction, and each functional device can be mounted. The bus B is connected to the slot 10-18 to enable data communication between devices mounted in the slot 10-18.

Meanwhile, ports P1-P3 are formed in the slot 12-18, and ports P1-P12 connected to the ports P1-P3 of the slot 12-18 are formed in the slot 10-18. It is. At this time, the slots 12-18 are configured to have high impedance, for example, before devices are mounted in the slots 12-18.

FIG. 2 is a block diagram illustrating devices mounted in slots 10-18 of the backplane of FIG. 1.

First, the management device 20 is mounted in the slot 10, and the functional devices 22-28 are mounted in the slots 12-18. Here, the functional devices 22-28 are provided with a plurality of ports A1-A12 so that they can be connected to the ports P1-P3 of any slots 12-18, and these ports A1-A12 are provided. It works by dividing into four groups. That is, the functional devices 22-28 advertise their functions through the ports A1, A2, A4, A5, and A7, A8, A10, A11, and the ports A3, A6, A9. Through A12, a message transmission is notified. For example, when functional device 22 is mounted in slot 12, it may be possible by putting ports A1, A2, A4, A5, and A7, A8 (A10, A11) into a logic low state as shown. When the ports P1 and P2 in the impedance state are converted to the low state, and the functional device 24 is mounted in the slot 13, the ports A2, A5, and A8 and A11 are logic low states. By converting the high impedance port P2 to a low state, and eventually converts the port P2 to a logic low state.

The functional devices 26 and 28 mounted in the slots 16 and 18 change the logic of the ports A1 and A2, A4 and A5 and A7 and A8 and A10 and A11 as shown. . Here, it can be seen that the functional devices 22-28 vary the logic states of the ports A1, A2, A4, A5, A7, A8, A10, A11. The logic states such as A1, A2, A4, A5, A7, A8, A10, A11 will indicate the function of each functional device 22-28. That is, the functional device 22 performs a function corresponding to logic (0,0), and the functional device 24 performs a function corresponding to (1,0). In the example of FIG. 2 it can be seen that the functions of the functional devices 22, 26 are identical to one another.

In the slot 10, a management device 20 is mounted, and the management device 20 is connected to logic applied through the ports A1, A2, A4, A5, and A7, A8, A10, and A11. Accordingly, it is possible to know whether the device 22-28 is mounted to the slot 12-18 and the function of the mounted device. That is, the transition of one of the ports A1, A2, A4, A5, A7, A8, A10, A11 to a low state means that the device has been loaded in the corresponding slot 12-18. The functions of the device in which the logic states of the ports A1, A2, A4, A5, and A7, A8, A10, and A11 are implemented mean that the management device 20 includes the slots 12-18. The devices 22-28 and the functions of the devices can be easily grasped.

Meanwhile, the functional devices 22-28 of the present invention may need to transmit a message to the management device 20 while performing a corresponding function under the control of the management device 20. In this case, the functional devices 22-28 transition the port P3 to a low state by converting the ports A3, A6, A9, and A12 to logic low (hereinafter, the low state of the port P3). Is called a message request signal).

Ports A3, 6, A9, and A12 of the management device 20 are converted from a high impedance state to a low state by the message request signal, so that the management device 20 transmits a message to one of the functional devices 22-28. Knowing that this is necessary, it can be determined by detecting which port (A3, A6, A9, A12) has been converted to logic low as to which device 22-28 request.

As described above, the management device 20 that detects the functional device 22-28 that has requested the message transmission by the logic conversion of the ports A3, A6, A9, and A12 is the functional device 22-28. Sends a status request message, and the functional device 22-28 performs a process of transmitting a message informing its status in response to the status request message.

That is, in the present invention, a separate dedicated line is formed between the slot for the management device and the slot for the functional device, and the functional device is required under the control of the management device by notifying the management device of a message request signal informing the necessity of the message transmission. It is possible to notify the management device of the message.

As described above, according to the present invention, a functional device on a backplane in an ATM LAN system can transmit a message to a management device under the control of the management device by applying a message request signal to the management device when necessary, so as not to put a load on the system. The effect is that the functional device can actively and reliably send messages.

Claims (1)

A system in which a functional device can send a message to the management device via the bus upon receipt of a status request message of the management device via a bus, A separate dedicated line is formed between the slot of the backplane on which the functional device is mounted and the slot of the backplane on which the management device is mounted; The functional device is configured to output a message request signal via the leased line when a message transmission to the management device is required; And said management device is configured to send said status request message to said functional device via said bus when said message request signal is applied from said leased line.

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