Device and method for digital position measuring
First Claim
1. Process for indirect and sequential digital measurement of the absolute position of an element including binary cobding affected by means of encoding units having the same area, in motion relative to an element provided with an organ for reading the coding, the said coding defining differentiated sectors each including an identical separation zone called a separator, and a zone identifying a single sector called an identifier, the code list of the identifiers being contained in a memory zone accessible by way of an organ for processing binary data sequentially transmitted bit by bit by the reading organ when the elements are in relative motion, the encoding of the separator including a binary sequence which is excluded from the encoding of the identifiers, consequently immediately identifying a separator, and permitting deduction of the identifier which follows it, wherein the position of the sector which corresponds to the identifier arranged after the identified separator is obtained by scanning the memory zone containing the list of the identifier codes, knowledge of the absolute position of the sector of the element provided with the binary coding being deduced from the memory address of the code of the identifier, wherein the coding sequence of the separator excluded from the codes of the identifiers includes three bits having the same value, wherein the codes of the separators include three bits of the same value surrounded by one bit of opposite value at each end of the sequence.
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Abstract
The invention concerns a method for indirect and sequential measuring of the absolute position of an element (1) comprising a binary coding produced by means of coding units (7) of the same surface, relatively moving with respect to an element provided with a device for reading said coding (7), said coding (7) delimiting differentiated sectors each comprising an identical separating zone, called separator, and an zone identifying a single sector, called identifier, the list of the identifier codes being contained in a memory zone accessible via a device for processing binary data transmitted sequentially bit by bit by said reading device when the elements are relatively moving. The invention is characterised in that the separator coding comprises a binary sequence which is excluded from the identifier coding, thereby immediately identifying a separator, whose knowledge of the whole code indicates the identifier following it, then the position of its corresponding sector by scanning the memory zone containing the list of identifier codes.
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Citations
5 Claims
- 1. Process for indirect and sequential digital measurement of the absolute position of an element including binary cobding affected by means of encoding units having the same area, in motion relative to an element provided with an organ for reading the coding, the said coding defining differentiated sectors each including an identical separation zone called a separator, and a zone identifying a single sector called an identifier, the code list of the identifiers being contained in a memory zone accessible by way of an organ for processing binary data sequentially transmitted bit by bit by the reading organ when the elements are in relative motion, the encoding of the separator including a binary sequence which is excluded from the encoding of the identifiers, consequently immediately identifying a separator, and permitting deduction of the identifier which follows it, wherein the position of the sector which corresponds to the identifier arranged after the identified separator is obtained by scanning the memory zone containing the list of the identifier codes, knowledge of the absolute position of the sector of the element provided with the binary coding being deduced from the memory address of the code of the identifier, wherein the coding sequence of the separator excluded from the codes of the identifiers includes three bits having the same value, wherein the codes of the separators include three bits of the same value surrounded by one bit of opposite value at each end of the sequence.
Specification