KR100370660B1 - CDMA synchronization method by using separated channel - Google Patents

Abstract

Although the present invention has excellent CDMA (Code Division Multiple Access) method, it is difficult to use a complex CDMA signal synchronization method due to the limitation of the digital signal processing rate as the frequency used and the transmission speed increase. Using this inexpensive RF device, the frequency difference between the transceivers is increased so that the CDMA synchronization process can be easily used, even if the received CDMA signal cannot be demodulated by the general synchronization method. to provide.

According to the present invention, a channel is divided into two groups, one for sending a modulated signal using a CDMA method, and the other for dividing a channel for sending a synchronization code. Sending a separate sync code to a separate transmission channel that is used at the time of multiplying the signal but not included in the transmitting data channel, and the receiver detects the sync time by detecting a sync code signal sent to a separate channel. And demodulating desired information by multiplying the received orthogonal code by the received CDMA signal according to the detected synchronization time.

According to the present invention, a complicated initial synchronization process and a synchronization tracking process in the demodulation process of a CDMA signal can be replaced with a bit synchronization process of a general digital transmission signal, and thus the receiving circuit is remarkably simplified, making it difficult to obtain CDMA synchronization in a transmission / reception period. The CDMA method can be easily used even in.

Description

CDMA synchronization method by using separated channel

Despite the advantages of the code division multiple access (CDMA) signal, the present invention can be synchronized by replacing the synchronization process with the bit synchronization process of general data communication, even in a situation in which it is difficult to obtain synchronization and the use of the CDMA method must be abandoned. This is a method of synchronizing a CDMA signal using a separate synchronization channel, which enables the advantages of a CDMA signal to be used even when a CDMA signal cannot be synchronized. The present invention relates to a method of demodulating a CDMA signal without a separate complicated CDMA signal by synchronizing the two signals separately and receiving and multiplying the two signals simultaneously.

Radio transmission multiplexing technologies are largely divided into frequency division multiple access (FDMA), time division multiple access (TDMA), and code division multiple access (CDMA). In spite of the complex implementation of the code division method, the IMT-2000 system, which is called the third generation mobile communication because of its excellent characteristics, has surpassed the time division method that has been intensely developed in the second generation mobile communication. It has become a standardized way.

The CDMA scheme is a code division multiple access, which is a multiple access scheme based on spread-spectrum system technology, also called spread-spectrum multiple access (SSMA).

Historically, the spread spectrum principle has long been developed through World War I and World War II. Spread-band system technology, which started with the idea of overcoming signal disturbance through spreading frequency band, has been studied in earnest since the 1950s and has been used mainly in military communication and satellite communication. However, recent advances in semiconductor technology have made integrated circuits highly integrated and high-speed. With the development of microprocessor technology, spread-band systems have been used for commercial mobile communications beyond military satellite communications.

This spread spectrum system is basically divided into direct sequence (DS), frequency hopping (FH) and time hopping (TH) according to the method of spreading the bandwidth. Lose.

Among them, in the direct sequence (DS) spreading band type CDMA system, a carrier modulated with a data sequence is directly modulated by a wideband spreading signal, that is, multiplied to spread a frequency band. The spread signal composed of +1 and -1 is called a spreading sequence, a spreading code, or a code sequence. When the frequency spread signal is transmitted, the transmitted signal is deformed by noise, interference, signal interference, and the like to reach the receiver. The receiver multiplies the received signal by the same spread signal as used in the transmitter to despread the spread band of the received signal.

However, in the conventional CDMA scheme, accurate time synchronization is required in the transmission / reception period to band-receive the received signal, but since the received signal is spread, the time information necessary for synchronization cannot be known. This process takes a lot of effort and search time, because you have to search for and find the right time. This synchronization process is largely divided into the initial synchronization process of searching the period of all the spreading codes to find time with precision within one chip, and the synchronization tracking process of continuously controlling the found synchronization time so as not to miss synchronization. All of these synchronization processes are very difficult to implement in the conventional CDMA demodulation circuit and are a core technology in the CDMA scheme.

1 is a synchronization process of a conventional CDMA signal.

In the initial synchronization process, since the exact position of the input signal is not known, multiply the reception code and perform correlation for one period. If there is no correlation result, delay the reception code by one chip and then perform correlation again. Continue until. If the correlation value exceeds the target value through this process, the code synchronization of the transmission and reception period is within one chip. Therefore, the initial synchronization is regarded as completed and the process goes to the synchronization tracking step to find the precise synchronization point.

In the synchronization tracking step, the code synchronization time is continuously adjusted in the direction in which the correlation value is large by taking correlation before and after the code. However, if there is no correlation result before or after the code in the synchronization tracking process, the synchronization is regarded as released and the initial synchronization process is started again to find a new synchronization.

It is also a problem that the correlation process takes a long time in this process, but the process is too complicated, which makes it difficult to use CDMA technology. In particular, when the frequency of use is increased, the phase rotation of the received signal is increased due to the minute frequency difference between the transceivers, and thus it is very difficult to synchronize. Therefore, a simple CDMA synchronization method is urgently needed.

Accordingly, the present inventors can skip the complicated initial synchronization and synchronization tracking procedure in the conventional CDMA demodulation described above, and can demodulate the CDMA signal using the bit synchronization method of general digital communication. Method '.

The first object of the present invention is to solve the problem that a modulated signal generated by a conventional CDMA scheme is externally difficult to find a synchronization signal because it is difficult to observe the pattern of the waveform of the signal. The synchronization information used at the time can be easily obtained at the receiving end without going through a complicated CDMA synchronization process.

The second purpose is to change the code within a period of code used as a frequent code change of the transmission signal caused by the rotation of the signal phase due to the frequency difference between the transmission and reception periods, which is the most difficult reason for synchronizing the CDMA signal. In order to solve the problem that the pattern is collapsed and the signal cannot be demodulated normally, the signal is successfully demodulated by compensating for the phase change of the received signal.

1 is a synchronization process of a conventional CDMA signal.

2 is a block diagram of a transmission system of the present invention.

3 is a block diagram of a receiving system of the present invention.

4 is a simplified system diagram of the present invention.

<Explanation of symbols for main parts of drawing>

13: RF transmitter for CDMA signal 14: RF transmitter for sync signal

21: RF receiver for CDMA signal 22: RF receiver for sync signal

The first object of the present invention,

Multiplying the orthogonal codes corresponding to the respective data channels to produce a CDMA modulated signal, then multiplying all of them by the sync code (adding an all '0' sequence for the sync code in this general CDMA scheme). none),

In this case, the CDMA modulated signal and the sync code used to generate the CDMA modulated signal are independently transmitted using different frequencies.

Extracting a synchronization time by recognizing a predetermined code pattern among the demodulated sync codes by demodulating the CDMA modulated signal and the sync code thus transmitted using a general data receiving process;

It is achieved by a method of transmitting a sync code on a separate channel comprising multiplying each received orthogonal code by a predetermined CDMA signal according to the recognized sync time to demodulate information of each channel.

The second object of the present invention,

By using the same clock as that used for CDMA modulation and the clock of the synchronization signal, the demodulated synchronization signal is multiplied by the received CDMA modulation signal to achieve a method of lowering the rate of change of phase of the received signal to a negligible level.

Before describing the present invention in detail, the synchronization principle of the CDMA method will be described.

In a conventional CDMA receiver, the received signal is multiplied by the same code as the code used for spreading in transmission in order to narrow the band of the spread CDMA modulated signal again. At this time, if the time of the code used in the received signal and the code used in the receiver do not coincide exactly, the bandwidth of the spread signal is not narrowed no matter how the code used in the transmission / reception period is the same. It is an absolutely important process.

However, since the signal spread by the CDMA modulation method has no way of finding out the information contained in the spread signal until the spread signal is narrowed again, the synchronization information necessary for signal compression is not seen at all.

Therefore, the receiving end must go through the initial synchronization process that finds the time coincidence between the transceiver codes by searching the same code as the code used in the transmission through all code cycles, and more precisely finds the synchronization point found after this initial synchronization process. There is a need for a synchronization tracking process that continuously tracks synchronization points so that they cannot be pushed out due to the frequency difference between the transceivers.

The initial synchronization process and the synchronization tracking process are very complicated, and although the CDMA method has many advantages, it is becoming a factor that cannot be used universally. To overcome this difficulty, instead of extracting the sync signal directly from the CDMA signal, the sync code used for CDMA modulation is separated and transmitted to a separate channel. Instead of using a complicated CDMA sync procedure, a simple digital bit sync circuit is used. If the CDMA demodulation time is extracted by using the demodulation code after demodulating the sync code separately transmitted, the CDMA demodulation process thereafter is relatively simple, and thus it is easy to demodulate the CDMA signal.

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

2 is a block diagram of a transmission system of the present invention.

Input data {d1, d2,... , dn} are orthogonal codes {c1, c2,... , cn} and multiply these values with a summer {12} to produce a CDMA multiple signal.

By multiplying this value by a synchronization code made by the synchronization code generator {10}, which has a longer period than the orthogonal code, a CDMA signal including the synchronization code is produced. The CDMA modulated signal thus produced is transmitted through the CDMA signal RF transmitter {14}, and the sync code used to generate the CDMA modulated signal is different from the frequency at which the CDMA modulated signal is transmitted. Transmit with CDMA modulated signal through.

3 is a block diagram of a receiving system of the present invention.

The receiving end simultaneously receives and demodulates the transmitted CDMA modulation signal and the synchronization signal to the CDMA signal RF receiver {21} and the synchronization signal RF receiver {22} to form respective baseband signals.

The baseband signal of the CDMA modulated signal is multiplied by the baseband signal of the synchronous signal to compensate for the phase change caused by the frequency difference between the transceivers and at the same time correct the polarity of the CDMA modulated signal changed by the synchronous code.

At the same time, a code pattern is extracted from the baseband signal of the synchronization signal by using a digital phase lop (DPLL) {23}, and the clock is simultaneously restored.

Using the extracted code pattern, the synchronization time is detected by the pattern comparator {24}, and the orthogonal code {c ₁ , c ₂ ... , c _n } is multiplied by the received CDMA baseband signal and correlated with the integrator {24} to transmit data {d ₁ , d ₂ ,... , d _n }

4 is a simplified system diagram of the present invention.

If there is only one input data channel, instead of multiplying the orthogonal code by the data, multiply the sync code generated by the sync code generator {10} to create a spread spectrum signal, and transmit this signal to the RF transmitter for CDMA signal {14} After transmitting the sync code used for spread spectrum to the sync signal RF transmitter {13},

The receiving end simultaneously receives and demodulates the transmitted CDMA modulated signal and the synchronous signal to the CDMA signal RF receiver {21} and the synchronous signal RF receiver {22} to form respective baseband signals.

By multiplying the baseband signal of the CDMA modulated signal by the baseband signal of the synchronization signal and correlating it with the integrator {24}, the data is recovered without having to find a separate synchronization time.

Example

32 channels of input data {d ₁ , d ₂ ,... , d ₃₂ } are orthogonal codes {c ₁ , c ₂ ,.. , c ₃₂ } adds this value to the adder and multiplies the orthogonal code with 1024 Kbps code rate and 1024 chip code period to create a CDMA modulated signal. The CDMA modulated signal is loaded on a 5.701 GHz RF transmitter, and the sync code used is loaded on a 5.801 GHz RF transmitter and transmitted to the receiver by the same antenna.

The receiver demodulates the transmitted CDMA modulated signal and the sync code, respectively, and multiplies the two signals to remove the phase shift phenomenon, finds '11111111110' from the sync code with a pattern comparator, and makes a CDMA orthogonal code using the time as the sync time. The demodulated CDMA signal is demodulated.

In the above, preferred embodiments of the present invention have been described, but it will be understood by those skilled in the art that various modifications and changes can be made without departing from the scope of the appended claims.

According to the present invention, it is possible to easily solve the synchronization problem, which is the most difficult problem when demodulating a CDMA signal, and the receiver circuit can be greatly simplified.

In addition, when only one data channel needs to be sent in a simple application, as shown in FIG. 4, the two signals are separated and the receiving end can demodulate a desired signal by simply multiplying the two signals. You can build a very inexpensive system.

Claims (2)

In the method for synchronizing the transmitted CDMA signal at the time of demodulation of the received signal in the code division multiple access (CDMA) method, Dividing the transmission channel into two groups, dividing the channel to use for the purpose of sending a CDMA modulated signal and the other group to send a sync code; When modulating a CDMA signal, sending a separate sync code to a separate transport channel, which is used at the moment of multiplying the sync code by the signal, but not included in the transmitting data channel; Demodulating the CDMA modulated signal and the synchronous signal thus transmitted to different receivers to form a baseband signal, and then multiplying the two baseband signals to remove a phase change caused by a frequency difference between transmission and reception periods; Comparing the sync code signal sent to a separate channel with a predetermined pattern to detect an accurate sync time; And demodulating desired information by multiplying a previously orthogonal orthogonal code according to the detected synchronization time by the received CDMA signal. The method of claim 1, If there is only one data channel to be transmitted, multiplying the data directly by the sync code; Transmitting a signal obtained by multiplying a data by a sync code and a sync code used on the separate RF channel; And a method of recovering data by performing correlation by demodulating and multiplying two signals transmitted separately, and performing correlation.