SU943798A1 - Photoelectric displacement-to-code converter - Google Patents

Description

(3) PHOTO-ELECTRIC DISPLACEMENT CONVERTER

8 CODE

Claims (2)

The invention relates to analog-to-digital conversion of information and is intended for use in various fields of science and technology as well as in the national economy, where it is necessary to use computing technology and automate the management of various objects in order to obtain digital information from controlled objects and enter it into digital controls. computing machines. Photoelectric transducers to a digital code are known, containing a code disk radiation sources rigidly mounted on the encoded shaft, an analyzing diaphragm and sensitive elements with electronic circuits for generating digital code output signals. In known photoelectric converters, a device performance rating and the code generation accuracy are established before installation. the converter at the facility or during operation at the facility by moving the shaft of the object for the whole range of operation information converter. In the known converters, there are no elements of control of their performance. The closest to the technical essence of the present invention is a photoelectric converter containing a block of radiation sources, a code disk rigidly fixed on the encoded shaft, an analyzing diaphragm, a block of sensitive elements whose outputs are connected to the input of the electronic unit forming the output code corresponding to the angle of rotation of the encoded shaft, 2. The disadvantage of such a converter is the inability to monitor the operability of the converter during it. work with the object in the system. The purpose of the invention is to provide control of the converter's operability. The goal is achieved by moving a code into a photoelectric converter into a code containing a block of radiation sources optically connected through a code disk and analyzing aperture with a block of sensitive elements, a code generating unit, a code disk rigidly connected to shaft, a state analysis block, a switch, a control radiation source block and a control sensory block are introduced; elements, whose inputs are optically connected to the radiation source unit, and the output is electrically connected to the first input of the switch, the output of the block of control radiation sources is optically connected to the sensor unit, and the input is electrically connected to the first output of the switch, the second output of which is electrically connected with the input of the radiation source unit, the third output — with the code generation unit, the fourth output — with the state analyzing unit, the second input — with the sensitive element block, the third input — with th analysis conditions, the code generating unit output connected to the output transducer -. The drawing shows a diagram of the proposed photoelectric movement in the code. The converter contains a coded shaft 1 with a code disk 2 fixed on it, an analyzing diaphragm 3, a block of control sensitive elements 4, a block of radiation sources 5, a block of sensitive elements 6, a block of control radiation sources 7, crm mutator 8, a state analysis block 9, an output code 10 generation unit. For example, light-emitting diodes can be used as radiation sources, and photodiodes as sensitive elements. The converter works as follows. The switching unit 8 connects the power to the unit of radiation sources and the outputs of the unit of control sensing elements 4 are connected to the unit aiaal for states 9. The radiant flux from the unit of radiation sources 5, reflected from the surface of the code disk 2, falls on the unit of control sensing elements 4, signals which are processed in the state analysis unit 9. The state analysis unit 9 in the presence of all signals from the block of control sensitive elements k on the operation of all radiation sources of this block gives a signal to the switching unit 8 on Connecting the power to the unit of control radiation sources 7 and the outputs of the unit of sensitive elements 6 to the state analysis unit 9. At the same time, the radiant flux from the unit of control radiation sources 7, reflected from the surface of the analyzing diaphragm 3, falls on the unit of sensitive elements 6, the signals from which are also processed in the state analysis block 9. After processing the signals from block 6, the state analysis block 9 contains all signals from the sensitive element block 6 about the operation of all sensitive elements of this block. The signals to the input of the converter and to the input of the switching unit 8 for connecting the power to the unit of radiation sources 5 and the outputs, the unit of sensitive elements to the unit generating the output TO code. In the event of a malfunction in the operation of blocks 5 and 6, the state analysis unit 9 signals the converter to be inoperative at its output and the information removal prohibiton signal to the switching unit 8. Such an arrangement of the blocks in the device allows controlling the efficiency of the converter during its operation with the control object. The proposed converter makes it possible to significantly shorten the time for monitoring the functionality both directly before its operation in the system, and without disconnecting from the system. Claims of the invention A photoelectric transducer for displacement into a code comprising a block of radiation sources optically coupled through a code disk and an analyzing diaphragm with a block of sensitive elements.