KR19990053173A - Multi-band code division multiple access device for high speed data communication - Google Patents

Abstract

The present invention relates to a multi-band code division multiple access (CDMA) device for high speed data communication.

In the conventional wireless access method, IS-95 based DCN or PCS method, a single band of 1.25 MHz has a maximum data rate of 14.4 Kbps or less. In addition, the wideband CDMA method proposed by Interdigital / OKI uses a single band to transmit data of up to 64 Kbps. However, third generation mobile communication systems require data services up to 2Mbps.

The present invention is a multi-band CDMA structure for transmitting data up to 2Mbps in the radio section between a personal station and a base station in the third generation mobile communication system of 1.8GHz ~ 2GHz band.

Description

Multi-band code division multiple access device for high speed data communication

The present invention relates to a multi-band code division multiple access (hereinafter referred to as CDMA) apparatus for high speed data communication.

In the conventional wireless access method, IS-95 based DCN or PCS method, a single band of 1.25 MHz has a maximum data rate of 14.4 Kbps or less. In addition, the wideband CDMA method proposed by Interdigital / OKI uses a single band to transmit data of up to 64 Kbps.

Accordingly, an object of the present invention is to provide a multi-band CDMA device for high speed data communication that transmits data of up to 2Mbps in a wireless section between a personal station and a base station in a third generation mobile communication system in the 1.8GHz to 2GHz band.

The present invention for achieving the above object is to determine the input speed in order to assign to the appropriate system according to the speed of the multiplexed information input, and to determine the channel transmission rate and multiplexer, and code division with a transmission bandwidth of 1.25MHz And a multiple access system, a code division multiple access system having a transmission bandwidth of 5 MHz, and a code division multiple access system having a transmission bandwidth of 20 MHz.

1 is a structural diagram of a multi-band CDMA system for efficiently transmitting high-speed data and various kinds of data according to the present invention.

2 is a diagram of a transmission channel structure from a base station to a mobile station.

3 is a structural diagram of a transmission channel from a mobile station to a base station.

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

1: Channel transmission rate discrimination and multiplexer 2: 1.25MHz CDMA system

3: 5 MHz CDMA system 4: 20 MHz CDMA system

20 and 30: channel coding and interleaving 21 and 31: filter (FIR)

22 and 32: long pseudo noise code (PN) generator

23 and 33: Short pseudo noise code (PN) generator I

24 and 34: short pseudo noise code (PN) generator Q

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a structural diagram of a multi-band CDMA system for efficiently transmitting high-speed data and various kinds of data, and according to the speed of input multiplexed information, the input speed is determined to be allocated to an appropriate system, and channel transmission is performed. It consists of a speed discrimination and multiplexer 1, a CDMA system 2 with a transmission bandwidth of 1.25 MHz, a CDMA system 3 with a transmission bandwidth of 5 MHz and a CDMA system 4 with a transmission bandwidth of 20 MHz. In this case, the 1.25MHz CDMA system 2 has a spread rate of 0.9216Mcps for all channels of the forward link and the reverse link, and the transmission frequency band is within 1.25MHz, and a 64 Walsh code is transmitted for the transmission rate of 14.4Ksps and 57.6Ksps For the 5MHz CDMA system 3, the spreading speed of all channels of the forward link and the reverse link is 3.6864Mcps, the transmit frequency band is within 5MHz, and the 256MHz code is transmitted for the transmission rate of 14.4Ksps. In this 20 MHz CDMA system, the spreading speed of all channels of the forward link and the reverse link is 14.7456 Mcps, and the transmission frequency band is within 20 MHz. Use 1024 Walsh codes for 14.4 Ksps, 128 Walsh codes for 57.6 Ksps, and 16 Walsh codes for 921.6 Ksps.

2 is a structural diagram of a transmission channel from a base station to a mobile station, W _{n, m, which is the mth} value of the Walsh function having n size, and channel coding and burstability errors for recovering an error when a channel passes through the transmitter. Channel coding and interleaving 20, a baseband filter (FIR) having a finite impulse response (FIR) characteristic, and a pseudo noise code length in a short pseudo noise generator Long pseudo noise generator 22, which is a pseudo noise code generator longer than the output length, Short pseudo noise generator I 23, which is a short length pseudo noise code generator for in-phase channel, and quadrature It consists of a short pseudonoise generator Q24, which is a short length pseudonoise code generator used for the channel.

FIG. 3 is a structural diagram of a transmission channel from a mobile station to a base station. W _{n, m, which is the mth} value of the Walsh function having a size _n, and channel coding and burstability errors for recovering an error when a channel passes through a transmitter. In the short pseudonoise generator, a channel coding and interleaving device (30), a baseband filter (FIR) having a finite impulse response (FIR) characteristic, and a pseudonoise code length are used. Long pseudo noise generator 32, which is a pseudo noise code generator longer than the output length, and short pseudo noise generator I 33, which is a short length pseudo noise code generator used for in-phase channel, and quadrature channels. It consists of a short pseudo noise generator Q 34 which is a short length pseudo noise code generator.

The present invention includes a physical layer of a radio connection between a personal station and a base station. The radio link consists of a reverse link providing a wireless connection from the private station to the base station and a forward link providing a wireless connection from the base station to the private station. The forward link has a pilot channel, a synchronization channel, a paging channel, and a traffic channel, and the reverse link has a pilot channel, an access channel, and a traffic channel. Each channel has convolutional coding that performs channel error detection and correction, block interleaving for channel burst errors, long code spreading and scrambling, orthogonal spreading by short code, and Walsh. Channelization by (Walsh) code, 4-phase phase modulation (QPSK) / 4 phase phase modulation (QPSK), and Reed Solomon coding are used for data transmission.

In the 1.25MHz band CDMA system, up to 32kbps data can be transmitted as a single code. In the 5MHz band CDMA system, up to 128kbps data can be transmitted as a single code, and data up to 384Kbps are transmitted using multiple codes. In the 20MHz band CDMA system, a single code can transmit data ranging from 64 Kbps to 512 Kbps. Data up to 2 Mbps is transmitted using multiple codes.

As described above, the present invention is a multi-band CDMA scheme for efficiently transmitting data of up to 2Mbps in a wireless section between a personal station and a base station in a third generation mobile communication system in the 1.8GHz to 2GHz band. Can be.

Claims (4)

A channel transmission rate discriminator and a multiplexer for determining an input speed and allocating the input speed to allocate an appropriate system according to the speed of the multiplexed information input; A code division multiple access system having a transmission bandwidth of 1.25 MHz, A code division multiple access system having a transmission bandwidth of 5 MHz, A multi-band code division multiple access device for high speed data communication, comprising a code division multiple access system having a transmission bandwidth of 20 MHz. The method of claim 1, The 1.25 MHz code division multiple access system has a spread rate of 0.9216 Mcps for all channels of the forward link and the reverse link, and the transmission frequency band is within 1.25 MHz. The transmission rate is 64 Walsh code for 14.4 Ksps and 16 Wilsh for 57.6 Ksps. A multi-band code division multiple access device for high speed data communication, characterized by using a code. The method of claim 1, The 5MHz code division multiple access system has a spread rate of 3.6864Mcps for all channels of the forward link and the reverse link, and the transmit frequency band is within 5MHz, and the transmission rate is 256 Walsh code for 14.4Ksps and 64 Walsh code for 57.6Ksps. And a 16 Walsh code for 230.4 Ksps. The method of claim 1, The 20MHz code division multiple access system has a spreading rate of 14.7456Mcps for all channels of the forward link and the reverse link, and the transmission frequency band is within 20MHz. The transmission rate is 1024 Walsh code for 14.4Ksps and 128 Walsh code for 57.6Ksps. And a 16 Walsh code for 921.6 Ksps.