KR100329355B1 - Device for connecting bs to bsc of mobile communication system - Google Patents

Abstract

PURPOSE: A device for connecting a BS(Base Station) to a BSC(Base Station Controller) of a mobile communication system is provided to directly interface an E1/T1 HDSL(High-speed Digital Subscriber Line) to an RF(Recommended Standard)-422. CONSTITUTION: The first router(21) mutually connects data of a data bus of BS to an external device and an RS-422. The first HDSL interface unit(22) connects to the first router(21) and the RS-422, and mutually transmits data of the BS and a BSC to an HDSL by using an asynchronous mapping rule and a non-channelizes mode. The second HDSL interface unit(23) connects to the first HDSL interface unit(22) through two loops, and mutually transmits the data of the BS and the BSC through an HDSL loop. The second router(24) connects to the second HDSL interface unit(23) and the RS-422, and transmits the data of the BS to a data bus of the BSC, and transmits the data of the data bus of the BSC to the BS.

Description

Device connecting base station and control station in mobile communication system

The present invention relates to a base station (BS) and a control station (BSC: base station controller) connection device of a mobile communication system, and in particular, E1 / T1 High-speed Digital Subscriber Line (HDSL) directly The present invention relates to an apparatus for interfacing to RS (Recommended Standard) -422.

1 is a block diagram of an apparatus for connecting a base station and a control station in a conventional mobile communication system.

As shown therein, the first E1 / T1 interface unit 11 and the first E1 / T1 interface unit 11 and E1 / enable the data of the base station data bus to interface with the transmission standard of E1 / T1. A first HDSL interface unit 12 connected to a transmission standard of T1 and transmitting data of a base station to HDSL using a channelized mode and a synchronous mapping mode, and the first HDSL interface unit ( 12) is connected in two loops and is connected to the second HDSL interface unit 13 which receives data of the base station through HDSL, and the second HDSL interface unit 13 is connected to the E1 / T1 transmission standard to control data of the base station. And a second E1 / T1 interface unit 14 which transmits to the data bus of the station so that the control station can control the base station.

Here, E1 is the transmission standard of 2.048Mbps in Europe and T1 is the transmission method of time division multiple digital transmission service provided at 1.544Mbps used in North America.

The base station and the control station connecting device of the conventional mobile communication system configured as described above receives the base station data from the first E1 / T1 interface unit 11 and transmits the data to the first HDSL interface unit 12 through the E1 / T1. Two loops of HDSL were transmitted to the control station via the second HDSL interface unit 13 and the second E1 / T1 interface unit 14, and the base station control command of the control station was transmitted in the opposite direction.

In this case, the channelization mode refers to a mode in which data and other information supplied from the front end are processed into a cell stream in a structured data format (SDF) format and transmitted, and the synchronous mapping mode is data having a transmission-to-reception ratio of 1: 1. Refers to a mode for transmitting data using a format.

However, the mobile communication system using the conventional HDSL as described above must use the channelization mode and the synchronous mapping mode by using the E1 / T1 interface card. Therefore, if any one of the two HDSLs is in a fail state, the control station and the base station The link has transitioned to an unusable state, causing a problem that communication using another live loop is not possible.

Accordingly, the present invention is proposed to solve the above problems of the prior art,

An object of the present invention is to provide an apparatus for directly interfacing an E1 / T1 HDSL (High-speed Digital Subscriber Line) to RS (Recommended Standard) -422.

In order to achieve the above object, a base station and a control station connection device of a mobile communication system according to the present invention,

A first router that enables data of the base station data bus to be interconnected with an external device via RS-422, and is connected to the first router through RS-422 to exchange data between the base station and the control station with an asynchronous mapping rule. A first HDSL interface unit which mutually transmits to HDSL using a non-channelized mode, and the first HDSL interface unit are connected in two loops to transfer data of the base station and the control station through an HDSL loop. A second HDSL interface unit for mutual transmission; The second HDSL interface unit is connected to the RS-422 and transmits data of the base station to the data bus of the control station, and a second router for transmitting the data of the control station data bus to the base station is characterized in that the technical configuration .

In the above, the non-channelized mode refers to a mode in which data supplied from the front end is processed into a cell stream in the form of an Unstructured Data Format (UDF) and transmitted. Refers to a mode for transmitting data using a format.

1 is a block diagram of an apparatus for connecting a base station and a control station in a conventional mobile communication system;

2 is a block diagram of an apparatus for connecting a base station and a control station in a mobile communication system according to the present invention;

<Explanation of symbols for the main parts of the drawings>

21 ..... First Router

22 ..... 1st HDSL Interface

23 ..... 2nd HDSL Interface

24 ..... Second Router

Hereinafter, an embodiment according to the technical idea of the base station and the control station connection device of the present invention configured as described above will be described in detail.

2 is a block diagram of an apparatus for connecting a base station and a control station in a mobile communication system according to the present invention.

As shown therein, the first router 21 allows the data of the base station data bus to be interconnected with an external device via RS-422, and is connected to the first router 21 via RS-422 to the base station and the control station. A first HDSL interface 22 for mutually transmitting the data of the data to HDSL using an asynchronous mapping rule and a non-channelized mode, and the first HDSL interface 22. And a second HDSL interface unit 23 connected in two loops to mutually transmit data of the base station and the control station through an HDSL loop, and connected to the second HDSL interface unit 23 via RS-422 And a second router 24 for transmitting data to the data bus of the control station and transmitting data of the control station data bus to the base station.

The operation of the base station and the control station connection device of the mobile communication system according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, RS-422 is a standard on the electrical characteristics of integrated circuits in the field of data communication established by the Electronics Industry Association. It defines the electrical characteristics of signal generators and interconnect terminals of an operational balanced interconnect circuit with a DC offset. Doing. Data communication rates apply to interfaces between Data Terminal Equipment (DTE) and DTE up to 10Mbits / sec.

The router is a device for interconnecting LANs (Local Area Networks), and OSI (Open System Interconnection) defined by the International Organization for Standardization (ISO). It is a device that processes the lower three layers (physical layer, data link layer, and network layer) among the seven layers.

Therefore, the receiver Rx of the RS-422 is set to the external mode by setting the clock mode of the high-level data link control (HDLC) serial communication controller (SCC) to external mode. And receiving data in synchronization with a clock supplied from the second HDSL interface units 22 and 23, and transmitting data Tx of the RS-422 to the first and second HDSL interface units 22 ( 23) to synchronize in synchronization with the clock supplied.

And HDSL mode lets you use asynchronous mapping mode and non-channelization mode.

Accordingly, when both loops of HDSL are alive, data is mapped to the HDSL frame by asynchronous mapping mode, and in case of E1, data communication is performed at a rate of 1168 Kbps in each loop.

In addition, when one of the two loops is in a fail state, the first and second HDSL interface units 22 and 23 are provided to the first and second routers 21 and 24 through RS-422. The speed of the clock is reduced to a level where data communication can be performed in one loop.

As such, since the first and second routers 21 and 24 transmit and receive RS-422 depending on the HDSL clock, the transmission speed of data is reduced by half compared to when two HDSL loops are operated. By the rule, the data received from the first and second routers 21 and 24 via the RS-422 is transmitted / received in the other HDSL loop that is normal, thereby enabling data communication between the control station and the base station. .

Although the base station and the control station connection device of the mobile communication system according to the present invention have described an embodiment of the connection between the base station and the control station of the mobile communication system, the present invention is also applicable to long distance data communication using E1 or T1. Applicable

As described above, the base station and the control station connection device of the mobile communication system according to the present invention uses the HDSL mapping mode as an asynchronous mapping mode, and an error occurs in one of two HDSL loops using the non-channelized mode. Even if the link between the base station and the control station is maintained there is an effect that can improve the stability of the system.

In addition, since the E1 / T1 interface block is not used as compared to the device using the conventional E1 / T1 interface block, the cost of the interface board can be reduced.

Claims (1)

In the base station and the control station connecting device of the mobile communication system, A first router for allowing data of the base station data bus to interconnect with an external device via RS-422; A first HDSL interface connected to the first router via RS-422 to mutually transmit data of a base station and a control station to HDSL using an asynchronous mapping rule and a non-channelized mode; Wealth; A second HDSL interface unit connected to the first HDSL interface unit in two loops and mutually transmitting data of a base station and a control station through an HDSL loop; And a second router connected to the second HDSL interface unit via RS-422 to transmit data of the base station to the data bus of the control station and to transmit data of the control station data bus to the base station. Base station and control station connection device.

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