KR100350318B1 - method for channel and time-slot assigning in time division multiplex system - Google Patents

Abstract

According to the present invention, a channel and time of a time division multiple device that allows a master to variably allocate channels and time slots according to characteristics of a corresponding slave based on slave specific information received from a slave requiring initialization through a dedicated channel at system initialization. Slot allocation method.

The method of allocating a channel and time slot of a time division multiple device according to the present invention includes: checking whether there is a slave that needs to be initialized through a dedicated channel through which a master transmits and receives information necessary for initialization upon system initialization; If there is a slave requiring initialization as a result of the check, transmitting a response request message to the slave through the dedicated channel and receiving a response message from the slave; Transmitting channel and time slot information, which are variably allocated according to the characteristics of the slave, to the slave through the dedicated channel by referring to the ID of the slave included in the response message; And receiving an initialization complete message through the initialized channel from the slave that initializes a channel occupying a predetermined time slot based on the channel and time slot information.

Description

Method for channel and time-slot assigning in time division multiplex system}

The present invention relates to a channel and time slot assignment method of a time division multiple device, and more particularly, to a channel and time slot assignment method of a time division multiple device that allows a master to allocate channels and time slots according to the characteristics of each slave. .

In general, in a time-division multiplexing device that multiplexes one circuit into a plurality of channels by dividing and transmitting a plurality of data or digitized voices into a predetermined time slot (time slot), one master and a plurality of slaves are TDM (Time). Devision Multiplex) is matched via the bus.

As shown in FIG. 1, one master and a plurality of slaves are connected through a TDM bus to transmit data output from the master to the slave through the transmit data bus LTXD, and through the receive data bus LRXD. Transmit the data output from the slave to the master, transfer the clock signal output from the master to the slave via the clock signal bus (LCLK), and transfer the frame sync signal output from the master to the slave through the frame synchronization signal bus (LFRS) Send it.

Here, the master includes a processor with a TDM function, and the slave includes a processor with a TDM function, and the corresponding time is based on a frame sync signal provided from the master through a frame sync signal bus (LFRS). In order to transmit and receive data at the slot position, the conventional slave uses a predetermined time slot and channel regardless of the bandwidth performance, and thus initializes its TDM bus matching logic with a predetermined bandwidth and time slot at initialization. The channel communicates with the master. That is, a method of operating all channels with the same bandwidth is used. Therefore, the speed of each channel occupies the same number of time slots and has the same bandwidth.

For example, if it is determined that one channel occupies one time slot, channel 0 occupies time slot 0, channel 1 occupies time slot 1, and channel 2 occupies time slot 2. And if it is determined that one channel occupies 4 time slots, channel 0 occupies time slot 0 to time slot 3, channel 1 occupies time slot 4 to time slot 7, and channel 2 occupies time slot 8 Occupies up to time slot 11 in.

As described above, in the related art, since a slave uses a predetermined time slot and channel, the channel is fixed and thus there is a problem in that the TDM bus cannot be efficiently used.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and in the system initialization, a channel and a time slot are variably allocated according to the characteristics of a corresponding slave based on slave specific information received from a slave requiring initialization through a dedicated channel. An object of the present invention is to provide a channel and time slot allocation method for time division multiple devices.

1 illustrates one master and multiple slave connections via a TDM bus.

2 and 3 are diagrams for explaining a channel and time slot allocation method of a time division multiple device according to the present invention;

4 is a diagram illustrating a dedicated channel applied to a channel and a time slot allocation method of a time division multiple device according to the present invention.

5 shows channels and time slots allocated in accordance with the present invention.

The channel and time slot allocation method of the time-division multiplexing device of the present invention for achieving the above object comprises the steps of checking whether there is a slave that needs to be initialized through a dedicated channel through which the master transmits and receives information necessary for initialization upon system initialization; ; If there is a slave requiring initialization as a result of the check, transmitting a response request message to the slave through the dedicated channel and receiving a response message from the slave; Transmitting channel and time slot information, which are variably allocated according to the characteristics of the slave, to the slave through the dedicated channel by referring to the ID of the slave included in the response message; And receiving an initialization complete message through the initialized channel from the slave that initializes a channel occupying a predetermined time slot based on the channel and time slot information.

In this case, if the response message is not received from the corresponding slave within the predetermined time, the method further includes transmitting a response request message to the slave requiring the next initialization.

Hereinafter, a channel and time slot allocation method of a time division multiple device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Since the configuration of the time division multiplexing device to which the channel and time slot allocation method according to the present invention is applied is similar to the related art, the following description will be made using the same configuration as the conventional time division multiplexing device shown in FIG.

2 and 3 are diagrams illustrating a channel and time slot allocation method of a time division multiple device according to the present invention, FIG. 2 is a diagram illustrating an operation process of a master, and FIG. 3 is a diagram illustrating an operation process of a slave.

First, referring to the operation of the master, as shown in FIG. 2, when the master is initially powered on or the system is rebooted, the master needs to be initialized by inspecting the entire slave through a dedicated channel as shown in FIG. 4. It is determined whether the slave exists (S10, S12). If there is a slave that needs to be initialized as a result of the determination of step S12, the response request message is transmitted to the corresponding slave that needs to be initialized through the dedicated channel (S14), and the preset response time after transmitting the response request message to the corresponding slave. It is determined whether this has passed (S16). As a result of the determination of step S16, if a predetermined response time has elapsed after transmitting the response request message to the corresponding slave, it is determined whether there is a response from the slave within the predetermined response time (S18).

If there is no response from the corresponding slave within the predetermined response time as a result of the determination of step S18, the controller moves to the next slave (S20), determines whether there is a slave that needs to be initialized (S12), and the slave that needs to be initialized exists. In case S14, a response request message is transmitted to the slave requiring initialization (S14).

On the other hand, if there is a response from the corresponding slave within a certain time, the initialization information (channel and time slot information) variablely allocated according to the characteristics of the slave with reference to the ID of the slave included in the response message received from the slave. Is transmitted to the corresponding slave through the dedicated channel (S22), and moves to the next slave (S20), it is determined whether there is a slave that needs to be initialized (S12), and if there is a slave that needs to be initialized, the next initialization is required. Send a response request message to the slave.

On the other hand, when the operation of the slave, as shown in Figure 3, when the initial power is applied or the system is rebooted, the transmission and reception mode is initialized to the dedicated channel (S30), and receives a response request message from the master through the dedicated channel It is determined whether the received (S32). When receiving the response request message from the master as a result of the determination in step S32, the response message including the unique information (ID, etc.) of the corresponding slave is transmitted to the master within a predetermined time through the dedicated channel (S34).

Thereafter, it is determined whether initialization information (channel and time slot information) is received from the master through the dedicated channel (S36). In the case of receiving the initialization information from the master as a result of the determination of step S36, as shown in FIG. 5, based on the initialization information received from the master, the initialization of the corresponding slave is performed. And set the corresponding channel occupying the corresponding time slot in the corresponding slave based on the time slot information (S38).

Thereafter, the initialization completion message is transmitted to the master through the channel in which the initialization is completed in step S38 (S40).

For example, when the first power is applied and the entire slave is checked through the dedicated channel, and there are slave1 and slave2 slave3 that need initialization, the master first sends a response request message to the slave1. Wait for the response from slave1.

On the other hand, when the first power is applied, the slave1 initializes a transmission / reception mode on a dedicated channel and, upon receiving a response request message from the master, transmits a response message to the master including its own information such as its own ID.

As such, when the response message is received from the slave 1 before the predetermined time elapses after the response request message is transmitted to the slave 1, the slave 1 is referred to the slave 1 by referring to the ID of the slave 1 included in the response message received from the slave 1. After the allocated initialization information (channel and time slot information) is transmitted to the slave 1 through the dedicated channel, the response request message is transmitted to the slave 2 which requires the next initialization.

On the other hand, the slave 1 performs initialization based on the initialization information received from the master. If the initialization information of the slave 1 is channel 2 and the occupied time slot is 1, the slave 1 acquires channel 2 occupying time slot 1. When initialization is completed, the initialization completion message is notified to the master through channel 2 where initialization is completed.

On the other hand, if the initialization information received from the master slave 2 is the channel 1 and the occupied time slots 2 to 3, the slave 2 initializes channel 1 occupying the time slots 2 to 3.

The channel and time slot allocation method of the time division multiple apparatus of the present invention is not limited to the above-described embodiments, and may be modified in various ways within the scope of the technical idea of the present invention.

According to the channel and time slot allocation method of the time division multiple device of the present invention as described above, the master according to the characteristics of the slave based on the slave unique information received from the slave that needs to be initialized through the dedicated channel at the time of system initialization. There is an effect that the time slot of the channel can be allocated by varying.

Claims (2)

Checking whether there is a slave that needs to be initialized through a dedicated channel through which the master transmits and receives information required for initialization upon system initialization; If there is a slave requiring initialization as a result of the check, transmitting a response request message to the slave through the dedicated channel and receiving a response message from the slave; Transmitting channel and time slot information, which are variably allocated according to the characteristics of the slave, to the slave through the dedicated channel by referring to the ID of the slave included in the response message; And receiving an initialization completion message from the slave which initialized a channel occupying a predetermined time slot based on the channel and time slot information through the initialized channel. The method of claim 1, wherein when a response message is not received from the slave, And transmitting the response request message to the slave requiring the next initialization.