KR0141385B1 - Multi-channel radio telecommunication - Google Patents

Abstract

The present invention relates to a longest code string generator in a multichannel wireless communication device.

In the conventional maximum code string generation method, a multiplexer must be provided in order to select and use several of the N-1 code strings. Therefore, when the length of the code string is long, a circuit for selecting one of the N-1 codes is used. There was a difficulty. Due to this problem, it is often easier to use several longest code string generators in actual circuit configuration. As described above, when a plurality of longest code string generators are used, a hardware configuration is very complicated.

The present invention can effectively generate the longest code string with a simple circuit configuration, and thus can be usefully applied to a multi-channel wireless communication device.

Description

Longest Code Sequence Generator in Multichannel Wireless Communication Devices

1 is a block diagram of the longest code string generator in a conventional multi-channel wireless communication device.

2 is a block diagram of a code selection output circuit for selecting and outputting a code applied from the longest code string generator of FIG.

3 is a table for setting taps and initial values of the longest code string generator.

4 is a configuration diagram of the longest code string generator in a multi-channel wireless communication device according to the present invention.

* Explanation of symbols for main parts of the drawings

20: Latch 30: AND gate

40, 50, 60: D flip-flop 70: down counter

80: inverter 90: OR gate

100: AND gate 110: shift register unit

The present invention relates to a longest code string generator in a multi-channel wireless communication device that generates the longest code string used for channel division in wireless communication. In particular, the longest code string generator for generating the longest code string with a simple hardware configuration. It is about.

The conventional longest code string generator comprises a shift register block 1, a tap setting block 2 and an initial value setting block 3 as shown in FIG. The longest code string is determined by the number of shift registers constituting the shift register block 1, and is determined in the form (equation 1).

N = 2 ⁿ -1... … (Expression, 1)

Where N is the longest code string and n is the number of registers.

The initial value is set to the flip-flop in the shift register block 1, and the output (tap) of each flip-flop is XORed (exclusive OR) between specific taps in the tap setting block 2, and looped to the shift register block 1 side. In this case, the longest code string is output in the form of code repeated in N cycles. The longest code string output from the shift register block 1 is shifted by one bit by the flip-flops F1 to F _n -1 of FIG. 2 to generate N-1 new longest code strings. A code is generated in which cross correlation between codes is minimum and auto correlation is maximum. In case of using this code string to distinguish each communication channel, multiply each channel and transmit the information using code division method. By multiplying the bit value by multiplying the corresponding bit by the bit, the information of the other channel is made into a noise component, and only the information of its own channel is restored. 3 is a table used to set an initial value and a tap when configuring a longest code string generator. Using this table, a code string having a maximum autocorrelation value can be obtained.

That is, the longest code string generated by the longest code string generator of FIG. 1 is output to the circuit side of FIG. 2. The desired longest code string length is the number of registers of the shift register block 1 using (Equation 1) described above. Can be obtained by setting.

The setting values of the initial value setting block 3 and the tap setting block 2 for obtaining the longest code string may be set with reference to the table of FIG. After doing this, when the set initial value is shifted by the clock CLK, the shift register block 1 outputs the longest code string. By delaying the longest code string code output from the shift register block 1 bit by one bit in the circuit of FIG. 2, each new code (code1 to codeN-1) can be obtained. It is minimum and the autocorrelation is maximized.

As described above, in the conventional maximum code string generation method, the multiplexer 4 must be provided in order to select and use some of the N-1 code strings. Therefore, when the length of the code string is long, the frequency of selecting one of the N-1 codes is long. There was a difficulty in constructing. Due to this problem, it is often easier to use several longest code string generators in actual circuit configuration. As described above, when a plurality of longest code string generators are used, a hardware configuration is very complicated.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a longest code string generator in a multi-channel wireless communication device for efficiently generating the longest code string with a simple circuit configuration.

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

In the conventional longest code string generator, as shown in FIGS. 1 and 2, the external CPU sets the tap and initial value of the longest code string generator for each channel. If the CPU designates the delay with the column code, the new longest code string can be obtained simply without using the code generator, and the initial value of the code generator that occurs when each code generator is used is set. For this purpose, the CPU does not need to store the entire data of the longest code string.

4 is a block diagram of the longest code string generator according to the present invention. The longest code string generator according to the present invention includes a latch 20 for storing code numbers received from a CPU, a data input terminal and an output terminal are interconnected, and a clock signal of a clock input terminal, a counter signal of a clear signal terminal, and a chip selection of a preset terminal. D flip-flop 20 for outputting a signal generated by operating according to a signal, a plurality of AND gates 30 for outputting a code number applied from the latch 20 according to a signal from the D flip-flop 20, and data From the D flip-flop 50 and the D flip-flop 50, the input and output terminals are interconnected and operate according to the clock of the clock stage, the clear signal of the clear stage and the code generation start signal of the preset stage. The code number applied from the inverter 80 and the AND gate 30 that inverts the applied signal is down counted according to the clock applied to the clock terminal and the signal applied to the enable terminal from the inverter 80. A down counter 70 for outputting a counted signal, a data input terminal and an output terminal are interconnected, and a D flip for outputting a signal generated by operating according to a clock signal of a clock stage, a count signal of a preset stage, and a chip select signal of a clear stage. A signal applied to the first input terminal from the OR gate 90 and the D flip-flop 60, which logically combines the flop 60, the chip select signal and the count signal and outputs the clear signal to the clear end of the D flip flop 50; And an AND gate 100 for logically multiplying and applying a clock applied to the second input terminal, and a shift register unit 110 for delaying and outputting a predetermined longest code string according to a signal applied from the AND gate 100. .

The longest code string generator of the present invention operates as follows.

First, the CPU analyzes which code is to be used for the use channel and stores the code number N to be used in the latch 20. At this time, the output of the D flip-flop 40 is set to the high level by the chip select signal so that the code number N stored in the latch 20 is loaded into the down counter 70 through the AND gate 30. The down counter 70 is loaded when the output of the D flip-flop 50 becomes high at the moment when the code generation start signal generated every one cycle (code 1 to code N-1) of the longest code string generator becomes low level. Count down with code number N.

For the longest code string used for communication channel classification, if you generate code 1 as a reference and delay code 1 bit by bit, you can get a new longest code string with minimum cross-correlation value and maximum auto-correlation value. By using this property, the CPU designates the number (X) of the unused code string among all code strings corresponding to N-1 length of the entire code string, loads it into the counter counter 70 as a count value, and starts generating code. The down counter 70 is operated at the same time as the signal, and the D flip-flops 40 and 50 are cleared by the count signal output from the down counter 70 at the moment when the set number X becomes zero. At this time, the output of the D flip-flop 40 is at a low level so that the AND gate 30 no longer loads the code number of the latch 20 into the down counter 70, and the output of the D flip-flop 50. It is also at the low level so that the down counter 70 no longer counts. In addition, the output of the D flip-flop 60 is at a high level so that the AND gate 100 outputs a high level clock to the shift register unit 110 so that the shift register unit 110 outputs code 1 to the down counter 70. Delays the code's numeric value so that the new longest code string (code X) can be printed.

As described above, the present invention can effectively generate the longest code string with a simple circuit configuration, and thus can be usefully applied to a multi-channel wireless communication device.

Claims (1)

In the longest code string generator in a multi-channel wireless communication device, a latch 20 for storing code numbers received from a CPU, a data input terminal and an output terminal are interconnected, clocks at a clock input terminal, counter signals and preset signals at a clock input terminal. The first D flip-flop 20 outputs a signal generated by operating in accordance with the chip selection signal of the stage, and outputs the code number applied from the latch 20 according to the signal from the first D flip-flop 20. And a second D flip which outputs a signal generated by operating a plurality of AND gates 30, a data input terminal and an output terminal and operating according to a clock signal of a clock stage, a clear signal of a clear stage, and a code generation start signal of a preset stage. Inverter 80 for inverting the signal applied from the flop 50, the second D flip-flop 50, the clock applied to the clock terminal code number applied from the AND gate 30 and the inverter 80 Down counter 70 outputting the count signal generated by down counting according to the signal applied to the enable stage, the data input stage and the output stage are interconnected, and the clock stage clock, preset stage count signal and clear stage A third D flip-flop 60 for outputting a signal generated by operating according to the chip select signal, and an OR for ORing the chip select signal and the count signal to a clear end of the second D flip-flop 50 as a clear signal; An AND gate 100 for performing an AND operation on a gate 90, a signal applied to the first input terminal from the third D flip-flop 60, and a clock applied to the second input terminal, and an AND gate 100 applied to the gate 90. And a shift register section (110) for delaying and outputting a predetermined longest code string in accordance with a signal.