JPS6165301A - Selection system for controller - Google Patents

Abstract

PURPOSE:To eliminate the need for a monitoring circuit and to also eliminate the need for connectors as many as the product of the number of controllers and the number of devices to be controlled by actuating plural controllers in sequence repeatedly. CONSTITUTION:When an origination call for new service which requires subscriber information is generated by a subscriber 1, an outgoing trunk 52 actuates a circuit correspondence device 21 through a main link 51, and consequently the circuit correspondence device 21 sends out an actuation signal from its terminal S0 to a terminal S0 of a controller 41, which is actuated. When the controller 41 receives the actuation signal, an actuation confirmation signal is sent out from its terminal A0 to the circuit correspondence device 21. The actuation of the controller 41 is stopped unless the circuit correspondence device 21 obtains the actuation confirmation signal even when actuating the controller 41 because the time limit monitoring means of the circuit correspondence device 21 monitors that, and the terminal S0 of a next controller 42 is actuated from a terminal S1. If no actuation confirmation signal is obtained from the controller 42 within a specific time, the controller 41 is actuated again. This operation is repeated until the start confirmation signal is received within the specific time limit.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention relates to a control device selection system comprising a plurality of control devices and a plurality of controlled devices.

[Prior art]

Conventionally, in a control device selection method consisting of multiple control devices and multiple controlled devices, when starting a control device from the controlled device, a priority selection is made among the control devices, and a vacant control device is searched for. A method was adopted in which a control device was activated.

Therefore, as many monitoring circuits as there are control devices are required.
Another disadvantage is that the number of connectors required is equal to the number of control devices multiplied by the number of controlled devices.

[Purpose of the invention]

The present invention solves the above-mentioned drawbacks, and eliminates the need for a p1 monitoring circuit by sequentially starting up a plurality of control devices, and the number of control devices multiplied only by the number of controlled devices. An object of the present invention is to provide a control device selection method that can eliminate the need for a connector.

[Structure of the invention]

The configuration of the control device selection method according to the present invention to achieve the above object of the present invention is 1. In a control device selection method consisting of a plurality of control devices and a plurality of controlled devices, the controlled device is provided with a means for sending a start signal to each control device, and the control device is provided with a means for receiving and sending a start signal. means for transmitting a start confirmation signal to the controlled device; furthermore, the controlled device is provided with a time limit monitoring means from sending the start signal to receiving the start confirmation signal; When the controller starts up and does not receive an activation confirmation signal from this control device within a certain period of time, the other control devices are activated in turn.

[Explanation of Examples]

Next, one embodiment of the present invention will be described based on the drawings.

FIG. 1 is a block diagram showing an embodiment of a control device selection method according to the present invention.

In the figure, subscribers 1 to 20 are connected to the main link 51 via line compatible devices 21 to 40 as controlled devices. 52 is an outgoing trunk connected to the main link 51. 41 and 42 are control devices that control the plurality of line compatible devices 21-40. The above embodiment is applied to a relay method for a new service that requires subscriber information.
A control device selection method consisting of line compatible devices [21 to 40 as controlled devices and control devices 41 and 42] will be described.

The A and D terminals of the line compatible device 21 are connected to the control device 41, respectively.
, 42, the SO terminal of the line compatible device 21 is connected to the control device 41o80 terminal, and the 81 terminal of the line compatible device 21 is connected to the SO terminal of the control device 142. Similarly, A and D of the line compatible device 22
The terminals are connected to the AI and DI terminals of the control devices 41 and 42, and the SO terminal of the line compatible device 21 is connected to the 81 terminal of the control device 41, and the si terminal of the line compatible device 21 is connected to the SO terminal of the control device connected to the terminal. 80.81 for line compatible devices 23-40. The A and D terminals are similarly connected to control devices 41 and 42.

Each of the line compatible devices 21 to 40 has means for sending an activation signal to the control devices 41 and 42 via its SO terminal. On the other hand, the control devices 41 and 42 have means for receiving the activation signal at the SO terminal and transmitting the activation confirmation signal from the AO terminal to the controlled devices 21 to 40 from which it was sent. . In addition, each controlled device 21 to 4
0 is provided with a time limit monitoring means from the sending of the activation signal to the reception of the activation confirmation signal.

Next, to explain the operation of this embodiment, first, when an outgoing call for a new service requiring subscriber information is generated from the subscriber 1, the outgoing trunk 52 sends a call to the line corresponding device via the main link 51. 21 is activated, and the line corresponding device 21 sends an activation signal from its SO terminal to the SO terminal of the control device 41 to activate it. When the control device 41 receives the activation signal, it sends an activation confirmation signal to the line compatible device 21 from the AO terminal. In the line compatible device 21, this activation confirmation signal is received at the A terminal, and thereafter data is exchanged between the Do terminal of the control device 41 and the D terminal of the line compatible device 21. After that, the subscriber information is sent to the outgoing trunk 52.

Next, a case in which an activation confirmation signal is not obtained even if the control device 41 is activated from the line compatible device 21 will be described. An activation signal is sent from the SO terminal of the line compatible device 21 to the SO terminal of the control device 41, but if the activation confirmation signal is not sent from the AO terminal of the control device 41 even after a - short time period elapses, the line compatible device Since the 210 time limit monitoring means is monitoring it, the activation of the control device 41 is stopped, and the SO terminal of the next control device 42 is activated from the ``81 terminal.Here,
When the activation confirmation signal is obtained from the control device 42, data is subsequently exchanged between the D terminal of the line compatible device 21 and the DO terminal of the control device 42, as described above. , subscriber information is sent to the outgoing trunk 52. Further, if activation confirmation information is not obtained from the control device 42 within a certain period of time, the control device 41 is activated again. That is, the controllers 41 and 42 are sequentially activated until the activation confirmation signal is received within a certain time period (overall timing).

In the above embodiment, the number of controlled devices is 20 line compatible devices and the number of control devices is 2. However, the present invention is not limited to this, and in general, the number of line compatible devices may be m and the number of control devices may be n. .

〔Effect of the invention〕

As explained above, according to the control device selection method according to the present invention, the controlled device is provided with a means for sending a start signal to each control device, and the control device receives the start signal and selects the sending source. A means for sending an activation confirmation signal to the controlled device is provided, and a means for monitoring a time limit from the sending of the activation signal to the reception of the activation confirmation signal is provided in the controlled device, and the controlled device activates the first control device. However, if a start confirmation signal is not received from this control device within a certain period of time, other control devices are started repeatedly in sequence, making it possible to eliminate the need for a large number of monitoring circuits and connectors, and simplifying the device configuration. This has the effect of realizing a low cost and economical method.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of a control device selection method according to the present invention. 1-20...Subscriber 21-4()--Line compatible device 41.42...Control device 51...Main link 52...Outgoing trunk

Claims (1)

[Claims] In a control device selection method including a plurality of control devices and a plurality of controlled devices, the controlled device is provided with means for sending a start signal to each of the control devices, and the control device receives the start signal. means for transmitting a startup confirmation signal to the controlled device from which the signal was sent, further comprising means for monitoring a time limit from sending out the startup signal to receiving the startup confirmation signal in the controlled device; A control device selection method characterized in that one of the control devices is activated from a controlled device, and when the activation confirmation signal is not received from this control device within a certain period of time, the other control devices are repeatedly activated in sequence.