KR100860023B1 - Data transmitting system and data transmitting method - Google Patents

Abstract

The present invention relates to a data transmission system and a data transmission method using the same, and in particular, to be suitable for processing output data of a baseband signal processor for restoring information from a terminal for scheduling a packet data channel of a forward link in a mobile communication system. A data transmission system and a data transmission method using the same. Such a data transmission system includes a plurality of baseband signal processors, a strobe signal line commonly connected to one side of each of the plurality of baseband signal processors, and a data line commonly connected to the other side of each of the plurality of baseband signal processors. And a plurality of baseband signal processing devices each having one side connected to the strobe signal line and the data line and the other side connected to a scheduler bus connected to the scheduler, and the plurality of baseband signal processors and the bidirectional transmission device respectively. It consists of boards.

Data transfer

Description

Data transmission system and data transmission method using the same {Data transmitting system and data transmitting method}

1 is a view for explaining a data transmission system according to the present invention

2 is a diagram illustrating a data flow of a data transmission system according to the present invention.

* Description of the symbols for the main parts of the drawings *

100, 200, 300: Board

Baseband signal processor: 110, 120, 130, 210, 220, 230, 310, 320, 330

140, 240, 340: bidirectional transmission element

The present invention relates to a data transmission system and a data transmission method using the same, and in particular, to be suitable for processing output data of a baseband signal processor for restoring information from a terminal for scheduling a packet data channel of a forward link in a mobile communication system. A data transmission system and a data transmission method using the same.                         

In order to efficiently operate a forward channel for transmitting high-speed packet data in a forward link in a mobile communication system, all mobile terminals allocated to the packet data channel are packets. Coding information about the state of a data channel is transmitted to a base station through a reverse link.

The base station receiving information about the state of the coded packet data channel from the terminals first transmits the state information of the coded packet data channel to a baseband signal processor, and the baseband signal processor transmits the packet data channel to the baseband signal processor. Restoring the state information of the UE and scheduling the packet data channel to which UE and how long to send the packet data by using the restored information.

In this process, when a large number of UEs are allocated to one packet data channel, information from all UEs cannot be recovered from one baseband signal processor. Therefore, information from terminals using multiple baseband signal processors is used. The actual scheduling processor should gather all this information in one place and make it easy to schedule.

According to the present invention, when multiple terminals are allocated to a packet data channel of a forward link in a mobile communication system, a scheduler efficiently accesses information necessary for scheduling of a channel for transmitting packet data from multiple baseband signal processors. It is to provide a data transmission system that can be performed and a data transmission method using the same.
To this end, the data transmission method proposed in one aspect of the present invention includes a plurality of baseband signal processors, one side of which is connected to a data bus for transmitting and receiving data, and the other side of which is connected to a strobe signal line. Restoring state information of a plurality of packet data channels transmitted from a plurality of terminals; and when each of the plurality of baseband signal processes reaches a predetermined set time slot corresponding to each of the plurality of baseband signal processes, the respective baseband signal processes receive the data. Sequentially occupying a bus and transmitting data and strobe signals recovered from the respective terminals to the bidirectional transmission apparatus according to a system clock, and the data of the respective baseband signal processors from the bidirectional transmission apparatus to the scheduler. Transmitting.
Preferably, the baseband signal processor provides a guard time between the data and the strobe signal between the respective terminals in the step of transmitting the data recovered from each terminal to the bidirectional transmission device.
Another aspect of the invention proposes a baseband signal processing system comprising: a plurality of baseband signal processors; A strobe signal line commonly connected to one side of each of said plurality of baseband signal processors; A data line commonly connected to the other side of each of the plurality of baseband signal processors; A bidirectional transmission device having one side connected to the strobe signal line and the data line, respectively, and the other side connected to a scheduler bus connected to a scheduler; And a plurality of baseband signal processing boards each configured with the plurality of baseband signal processors and a bidirectional transmission device.
Preferably, the baseband signal processor of the baseband signal processing system recovers data transmitted from terminals for a given specific time slot and transmits the data along with the strobe signal to the bidirectional transmission apparatus.

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Hereinafter, a transmission bus structure according to the present invention will be described with reference to the accompanying drawings.

1 is a diagram illustrating a transmission bus structure according to the present invention, and FIG. 2 is a timing diagram illustrating a control method of the transmission bus structure according to the present invention.

According to the present invention, the packet data channel is allocated to each terminal according to the information on the state of the packet data channel from the reverse link signals from the plurality of terminals allocated to the packet data channel of the forward link. In order to reliably transmit channel state information transmitted from a terminal to a scheduler, the first to Nth baseband signal processors 110, 120, 130, (210, 220, 230), (310, 320, 330) for restoring information from a plurality of terminals. ) And the first to Mth baseband signal processing boards 100, 200, and 300 provided with the bidirectional transmission devices 140, 240, and 340, respectively. One side of the Nth baseband processor (110, 120, 130) is connected to the strobe signal transmission line, the other side It is connected to the data bus.

The strobe signal transmission line and the data bus are also connected to the bidirectional transmission device 140 provided in the first baseband signal processing board 100, and the bidirectional transmission device 140 transmits data transmitted from the data bus to the ECL (Emitter). A bus between the first baseband signal processing board 100 and the other baseband signal processing boards 200 and 300 is connected to the differential signal of the coupled logic. In addition, the strobe signal in each board is to control the direction of the bidirectional transmission device (140, 240, 340).

That is, when the connection between the first to third baseband signal processing boards 100, 200, and 300 is made of TTL (transistor-transistor logic), the noise is affected by the noise. Bidirectional transmission elements 140, 240 and 340 are provided on each board.

Strobe is a signal sent in computer or memory technology to identify data or other signals on adjacent parallel lines.

In the present invention, for example, N baseband signal processors capable of restoring information of P terminals are mounted on one baseband signal processing board, and when such boards are installed, M scheduling information is provided. It is for explaining the embodiment of gathering in one place.

In this embodiment, the first through Nth baseband processors 110, 120, 130, 210, 220, 230, and 310, 320, 330 provided in the first through Mth baseband signal processing boards 100, 20, and 300 operate with clocks of the same frequency. If the first to Nth baseband signal processors 110, 120, 130, 210, 220, 230, and 310, 320, 330 are synchronized with each other, the bus may be time-divided. In this case, the data transmitted to the bus may be parallel or serial data.

FIG. 2 is a timing diagram when the bus is time-divided. In the timing diagram shown in FIG. 2, a channel element (first to Nth baseband signal processors) which recovers a signal of an arbitrary terminal in a given time slot is shown in FIG. ) Occupies the data bus and transmits information and strobe signals necessary for reconstructed scheduling. At this time, channel elements of baseband signal processors allocated to different time slots or other channel elements of the same baseband signal processors should be in a high impedance state to disconnect the strobe_n data bus.

In addition, since the direction of bi-directional elements 140,240,340 to reduce the influence of noise that may occur when the data connection between boards is TTL, the Strobe_n signal is transmitted together when transmitting data within one board. The signal can be used to determine transmission of data between the baseband signal processing boards 100, 200, and 300 as well as other baseband signal processors.

Since the baseband signal processors of each board have the same operating frequency but may use different phase locked loops, phases between clocks may be different from each other. In this case, transmission stability can be improved.

According to the present invention, when a mobile communication base station system gathers information of all terminals necessary for scheduling in one place, a more stable and scalable data transmission bus structure between chips is used in a base station to transmit high-speed packet data through a forward link. The channel can be operated efficiently.

Claims (4)

Each one side is connected to a data bus for transmitting and receiving data, and each other side is connected to a strobe signal line, and a plurality of baseband signal processors connected to a strobe signal line are transmitted from the plurality of terminals. Restoring state information; Upon reaching a predetermined set time slot corresponding to each of the plurality of baseband signal processes, each baseband signal process sequentially occupies the data bus and recovers data and strobe signals recovered from the respective terminals. Sequentially transmitting to the bidirectional transmission device according to; and And transmitting the data of the respective baseband signal processors to a scheduler in the bidirectional transmission device. The method of claim 1, In the step of the baseband signal processor transmitting data recovered from each terminal to a bidirectional transmission apparatus, a guard time is provided between the data between the respective terminals and the strobe signal. . A plurality of baseband signal processors; A strobe signal line commonly connected to one side of each of the plurality of baseband signal processors; Data lines commonly connected to the other side of each of the plurality of baseband signal processors; A bidirectional transmission device having one side connected to the strobe signal line and the data line, respectively, and the other side connected to a scheduler bus connected with a scheduler; and And a baseband signal processing board comprising a plurality of baseband signal processors and a bidirectional transmission device, respectively. The method of claim 3, wherein And the baseband signal processor of the baseband signal processing system recovers data transmitted from terminals at a given specific time slot and transmits the data along with the strobe signal to the bidirectional transmission device.

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