TH22672B - Method of modulation of machine signals for signal modulation Signal demodulation method And a machine for signal demodulation - Google Patents

Abstract

in this invention A partial duplex conversion table is used as a conversion table for the direct conversion of an M bit-based data line to an N-bit-based code line. where no edge bits are used Such transformation tables are formed by the first and second subtables, each of which includes several code groups. These multiple code groups include different codes for the same input data. This second subtable is a table that is partially duplexed with the first subtable. And it is realized by allocating different codes from the first input to the second input in the first subgrid. The first and second subgrids are designed. in such a way that A set of codes of duplexed sections takes the variance of the digital sum variation which has opposite sign. The code is allocated to all code groups in the duplexed portion of the first and second subgrids against the respective input data from the code which has the maximum absolute value of the variance of the resulting variation. This digital integration, therefore, according to this style The low-frequency component of the modulated signal may be appropriately limited.

Claims (9)

Signal modulation method for converting an M bit-based data line to an N-bit-based code line, where M and N are integers with the relation of M < N, which this method consists of. Included: This basic M-bit cabling comes in as a single data word of a number of data words; Translating this first data word into the first code word from the first table of a number of primary and secondary tables. which would cause these secondary code words tables to involve only a portion of these codewords; Determining whether one of these tables of secondary code words can be used for translating a second data word to a second data word based on the value of this second data word; If one of these tables of secondary code words could be used for interpreting this second data word. Determining if one of these primary-keyword tables or one of these secondary-keyword tables must be used for translating the second data word into a second data word based on the DSV value; Determining whether to use one of these tables of code words based on the preceding data words; and where there will be at least a general advancement of the DSV values for these code words in each table of a number of primary tables from at least the relative highest DSV significance associated with the value of the data word. Lowest to the relative lowest DSV associated with the highest data word. And where further there will be at least the general advancement of the DSV values for these code words in these secondary tables from least significant, relative lowest DSV to highest DSV. relatively and which would cause these code words in these secondary tables to relate to a portion of these data words in advance from least important the value of the lowest data word to the highest value. The signal requested is claimed in Claim 1, where the process of determining whether one of these tables of ciphers is required for this second data word consists of specifying a flag. related to this first code word. 3. The modulation method of the signal as requested in Claim 2, which is further incorporated into the procedure of Selection of one of these primary or secondary tables which will result in a smaller cumulative digital sum variation. 4. Signal modulation method as requested in Claim 3 which It includes the process of obtaining code from a number of these primary code words tables. when it is determined that the data of this second data word is not less than the pre-set value Section of the adjustment of the cumulative digital sum variation. 6. The signal modulation method as claimed in Claim 5, which is further supplemented with the step of specifying the value. NEXT STATUS 7. The signal modulation method as requested is claimed in Claim 3 where each of these code words in these Primary and Secondary code words tables conforms to the modulation rules. of the minimum wavelength of 3 T and the maximum wavelength of 11 T, with T representing one channel clock cycle. 8. Signal modulation method as claimed in Claim 7. where one of these Primary and Secondary Code Terms consists of four groups of these Primary and Secondary Code Terms. Clause 8. The first group of these four primary and secondary table of code words is composed of code words beginning with "0. At least two 1 0. Signal modulation methods as requested in Claim 8, where the second group of these four primary and secondary table of code words shall be composed of a code word. starting with a maximum of five "0" and the first bit from the highest significant bit (MSB) of this code and the fourth bit from the least significant bit. (LSB) of this code is "0" 1. 1. The signal modulation method as requested in Claim 10, where the third group of these four primary and secondary code-word tables comprises a code-word beginning with "0". The maximum number of five and one or both bits of the first bit from the highest significant bit (MSB) of this code word and the fourth bit from the least significant bit of this code is "1" 1. 2. The signal modulation method as requested is claimed in Claim 8, where the fourth group of these four primary and secondary code-word tables is composed of code-words beginning with "1". or "01" 1 3. The signal modulation method as requested in Claim 9, wherein the procedure for determining which one of these tables is to be used, shall consist of the procedure of Selection from the next first code group If the current code word ends with "1" or "10" 1 4. The signal modulation method as requested in Claim 11, where the procedure for determining whether to use one of these tables of codes consists of a step of Selection from the next second or third group of codes If the current code word ends with Two to five "0" numbers 1 5. The signal modulation method as requested in Claim 12, where the procedure for determining whether to use one of these tables of a number of code tables consists of a selection procedure. The next fourth group of codes If the current code word ends with "0", six to nine numbers 1 6. The signal modulation method as claimed in Claim 13, which consists of a procedure for selecting a code word from the first group of a number of these codeword tables after the synchronization. come in 1 7. The signal modulation method as claimed in Claim 8, where each of these tables of code words has a portion allocating the same cipher for different input data for which the same cipher has a value. different status 1 8. The signal modulation method as claimed in Claim 8, where a number of these tables of code words allocate the same code for the same input data. where the same code allocated to this has the same flag 1. 9. Signal modulation machine for converting an M bit data line to an N bit code line, which includes: The receiving path for receiving a data line with M bits as the basis is entered as a value. of the input signal: a conversion method for converting this M bit data into an N bit code in a manner consistent with the transformation table; and the output path for the N-bit based code line output as a result of modulation; where this conversion table consists of a number of primary and secondary code tables where each table of such primary and secondary code-term tables is organized into a group of tables in which Each of the tables of primary and secondary code words have binary values, all of which have at least some form of binary digits associated with each of these groups; Such primary word tables contain code words that are in a one-to-one correspondence with a number of valid data words and are generally organized at least in the advance of the DSV values. Minimal is important, relative highest DSV relates to lowest data word, to lowest relative DSV is relative highest data word; The secondary code word table contains codewords that correspond only to a portion of the data words available. and where the ciphers from such secondary tables have DSV values, which are generally classified at least in the DSV value advance from least significant, relative DSV to DA. Relative maximum suite and where these code words in these secondary tables correspond to part of these data words from least significant, the lowest value of the data word to the highest value of 2.0 for modulation. Signals as requested claim in Claim 19, which also include a number of further flags in a one-to-one correspondence with these code words, for which such flags identify the next group of tables. Some of these codes 2 1. Signal modulation machines as claimed in Claim 20, which this conversion path includes: between the first input data and the second input data?; Comparison method for comparing the variation of the cumulative digital sum calculated by the code obtained on this first sub-table with the variation of the cumulative digital total calculated by the code derived on the second sub-table. this When it has been determined that this input data has been merged between this first input and this second input; and a selection method for selecting the resulting code on one of these tables which results in a cumulative digital sum variation of less than 2. Claim Clause 21, wherein this conversion method further encompasses the method for obtaining code from this Primary Code Term. When it is determined that this input data does not lie between the first input and this second input 2 3. The signal modulation machine as requested in Claim 22, which continues to be incorporated. with a method for up-to-date variations of this cumulative digital sum 2 4. The signal modulation machine as requested in Claim 23, which is further incorporated into the method For the current adjustment and retention of this flag, 2 5. Signal modulation machines as requested in Claim 21, where these code words in these primary and secondary tables Each square has a minimum wavelength of 3 T and a maximum wavelength of 11 T, with T representing the clock cycle of the channel 2 period. Article 25, where one of these Primary and Secondary Code Terms contains four groups of these Primary and Secondary Code Terms. Claim Article 26, where the first group of codes shall consist of A code word beginning with at least two "0" is required. 2. 8. The signal modulation machine as requested in Claim 26, where the second code group shall consist of the initial code word. with a maximum of five "0s" The first bit from the highest significant bit (MSB) of this code and the fourth bit from the least significant bit (LSB) of this code is "0". The signal number as requested is claimed in Claim 28, where the third group of codes will consist of a maximum of five code words starting with "0". One or both bits of the first bit from the highest significant bit (MSB) of this code word and the fourth bit from the least significant bit (LSB) of this code word are "1". 3 0. Signal Modulation Machines as claimed in Claim 26, where the fourth group of codes shall consist of codes beginning with "1" or "01". Determines the signals as requested in claim 27 where when the current code ends with "1" or "01", this flag becomes 1 with the following codes being chosen by the group. First Code 3 2. Signal modulation machine as requested in Claim 29 where when the current code ends with two to five "0s" This flag becomes 2 or 3 with the following values being chosen from this first code group 3. 3. Signal modulation machines as requested in Claim 30 at which when the current code ends with a number of six to nine "0" This flag becomes 4 and the next code will be selected from this fourth code group 3. 4. The signal modulation machine as requested in Claim 31, where the code word after The synchronization model is selected from the first code group 3. 5. Signal modulation machines as claimed in Claim 25, where each table of primary and secondary code words A number of these will have a section which allocates the same code for different inputs. The same code has 3 different flags. 6. Signal modulation machines as claimed in Claim 25, where a number of these Primary and Secondary code word tables will play a role. Allocate the same code for the same input data. which the same code allocated to this has the same flag 3. 7. Signal demodulation method for inverse conversion N-bit-based cipher lines to M-bit-based data lines, where M and N is an integer with the relation of M.