KR20020057291A - Chanel apparatus of base station for modulation and demodulation - Google Patents

Abstract

PURPOSE: A base station channel apparatus for modulating and demodulating data having variable data rate is provided to assign appropriate channels to users according to the data rate, thereby efficiently using channel resources. CONSTITUTION: A base station modem(200a) includes a plurality of searcher blocks(220) and finger blocks(230) to divide or merge input data according to the data rate. A modem control block(300) includes a transport channel encoding block(310) for processing divided or merged data by the base station modem(200a), and a transport channel decoding block(340) for transmitting data signals enabling division or merging to the base station modem(200a), so that the modem control block(300) modulates and demodulates data having variable data rate.

Description

CHANNEL apparatus of base station for modulation and demodulation

The present invention relates to a base station channel apparatus for modulation and demodulation of data having a variable data rate, and more particularly, to demodulation and demodulation of data having a variable data rate for performing modulation / demodulation by dividing and integrating channel resources according to input variable data. It relates to a channel device of the base station for.

In general, in a wireless communication system (code division multiple access (CDMA) and personal communication system (PCS), etc .: hereinafter referred to as "second generation communication system"), the channel card of the base station system is the number of voice channels that can be simultaneously called. The dose is calculated.

1 is a configuration diagram of an embodiment of a conventional base station channel card.

As shown in Fig. 1, the channel card in the second generation base station includes a plurality of base station modems 20a..20n and a modem control block 30. Here, the base station modem is composed of a plurality, but will be described through a single base station modem (20a) to help understand the description.

That is, the base station modem 20a includes a sector selection block 21, a searcher block 22, a finger block 23, a combine block 24, a channel decoding block 25, a channel coding block 26 and a transmission block. And (27).

The modem control block 30 includes a data mux block 31 and a data demux block 32. Data received at the base station is input to the baseband interface block 10 via an associated RF circuit (not shown). Here, the base station may have three sectors or six sectors so that data received in these sectors is input to the expected band interface block 10. The baseband interface block 10 demodulates the input data into an I / Q signal and provides it to the A / D block 12. The A / D block 12 converts the demodulated data signal into a digital signal and inputs it to each base station modem 20a .... 20n of the base station channel apparatus.

Here, the base station modem 20a selects the input digital I / Q signal through a sector required by the sector selection block 21 and provides it to the searcher block 22. Then, the searcher block 22 searches for a received signal and provides data and timing information of the data to the finger block 23. The finger block 23 is demodulated using the timing information received from the searcher block 22 and the received data and provided to the combine block 24.

In this case, the combine block 24 synthesizes the demodulated data into a single signal and provides it to the channel decoding block 25. The channel decoding block 25 decodes the input data to recover the encoded signal and provides the data to the data mux block 31 of the modem control block 20.

In addition, the data to be transmitted is demuxed through the data demux block 32 of the modem control block 32, and the demuxed data is input to the channel coding block 26 of the base station modem 20a. The channel coding block 26 codes a transmission data signal into a channel and provides the transmission data signal to the transmission block 27. The transmission block 27 provides channel coded data to the sector selection block 21. The sector select block 21 selects the sector and provides the digitized signal to the combine D / A block 15. The combiner D / A block 15 provides the baseband interface block 10 with I / Q transmission data corrected for signal distortion. The baseband interface block 10 provides the transmission data to the transmission module of the base station.

As described above, in the channel card of the base station of the second generation communication system, one base station modem is assigned to one voice service so that the data transmission rate can be varied within a small range according to voice activity.

Here, the data rate refers to the number of data bits that can be transmitted in one second. For example, when 1000 bits of data are transmitted in one second, the data rate is 1Kbps, where 1Kbps is the data rate.

On the contrary, the standard of 3rd generation communication system (e.g. IMT-2000), which is recently developed to provide various services such as data and video including voice, does not use a fixed data rate, Variable. Therefore, when the channel card of the base station is designed in the same concept as the channel card of the second generation system in the third generation communication system, one base station modem should be allocated for one service at all times regardless of the lowest or highest data rate. do.

Therefore, in the 3rd generation communication system, the difference between the lowest data rate and the highest data rate is much higher than that of the second generation. Therefore, one base station modem is allocated to one service regardless of the data rate, resulting in inefficient operation of the system. there was.

Accordingly, the present invention has been proposed to solve the above-described problems, and the variable data rate enables the channel card of the base station to be divided and integrated regardless of the variable data during data modulation and demodulation according to the variable data rate. It is an object of the present invention to provide a channel apparatus of a base station for modulation and demodulation of data having a.

That is, the present invention divides the service into a plurality of channels using a low data rate in consideration of the data rate for the entire service, and allocates a service to one user using a high data rate. It is an object of the present invention to provide a base station channel apparatus for data modulation and demodulation having a variable data rate for allocating a channel.

1 is a configuration diagram of an embodiment of a conventional base station channel device.

2 is a block diagram of an embodiment of a base station channel apparatus for data modulation and demodulation having a variable data rate according to the present invention.

In order to achieve the above object, the present invention provides a channel apparatus of a base station for modulation and demodulation, wherein the channel apparatus of the base station includes the plurality of base station modems and a single modem controller; The base station modem is configured such that a plurality of search blocks and finger blocks correspond to each other so that data can be divided and merged according to a transmission rate; The modem controller configures a transport channel decoding block for processing data provided by partitioning and merging in a base station modem and a transport channel decoding block for transmitting a splitting and merging data signal to the base station modem; It is characterized by having a variable transmission rate.

Here, the above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram illustrating an embodiment of a base station channel apparatus for data modulation and demodulation having a variable data rate according to the present invention.

As shown in FIG. 2, the base station channel apparatus includes a plurality of searcher blocks 220 and a finger block 230 and includes a base station modem 200a for transmitting and receiving data to and from the base station, and the base station modem 200a. And a modem control block 300 for transmitting and receiving data.

Here, the base station modem 200a is composed of a plurality of the same base station modem, the plurality of searcher block 200 and the finger block 230 can be variably communicated according to the data rate.

The modem control block 300 includes a transport channel encoding block 310, a data mux block 320, a data demux block 330, and a transport channel encoding block 340. Perform data communication.

That is, the transport channel encoding block 310, the data mux block 320, the data demux block 330, and the transport channel encoding block 340 support connection of a few channels for high speed data transmission and reception. In this case, data transmission and reception is performed through connection with the searcher block group 220 and the finger block group 230 of the base station modem 200a.

In detail, the base station modem is configured with N independent N and N (N is an arbitrary natural number) blocks and finger blocks, and the combine block 240 is a terminal connected to a plurality of channel cards for a low speed data service or a high speed. It performs communication with terminals connected to a few channel cards for data service.

That is, if the base station modem 200a capable of supporting 32 voice signals (low speed data service) through a low data rate (12.2 Kbps), the base station modem 200a is a total of 390.4 Kbps of 32 x 12.2 Kbps Have allocation capability.

Therefore, it is possible to configure 32 searcher blocks and finger blocks in the base station modem for the same low-speed data service to 32 people, and one person uses the total resource allocation for the high-speed data service through the configured base station modem. .

Here, the combine block 240 is configured to enable the high speed and low speed data transmission, and the transport channel encoding block 310 and the transport channel encoding block 330 of the modem control block 300 are configured for the same service. It is composed.

That is, the data received from the base station modem 200a is input to the transport channel encoding block and mapped to the transmittable physical channel, and the transport channel receives the demux data provided from the data demux block 330. It is converted into transport channel data by the decoding block 340 and transmitted to the base station modem 200a.

The present invention described above is not limited to the stated embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

As described above, the present invention divides a plurality of channels into a plurality of users using a low data rate in consideration of the data rate for the entire service, and allocates a service to one user using a high data rate. Since the channel can be allocated, the channel resource can be efficiently used.

Claims (1)

In the channel apparatus of the base station for data modulation and demodulation, The plurality of base station modems and a single modem controller; The base station modem is configured such that a plurality of search blocks and finger blocks correspond to each other so that the input data can be divided and merged according to a transmission rate; The modem controller configures a transport channel decoding block for processing data provided by partitioning and merging in a base station modem and a transport channel decoding block for transmitting a splitting and merging data signal to the base station modem; A channel device of a base station, characterized in that the modulation and demodulation of data having a variable data rate is possible.