SU618775A1 - Displacement-to-code converter - Google Patents

Description

(54) TRANSMITTING CONVERTER TO CODE

Claims (2)

  . 1 The invention relates to analog-to-digital conversion information. Movement converters to digital code are known based on counting the number of unit re-motions or on direct reading of a code. A known transducer is transposed into a digital code having a moving quantum scale on which identical portions are applied in the form of two carrier states (transparent and transparent, etc.), sensitive elements, the outputs of which are connected to a binary counter. The disadvantage of it is the low conversion accuracy. The closest in technical essence to the invention is a displacement transducer into a code containing a sequential radiation source, a moving quantized scale; / slit diaphragm and a sensitive element, the output of which is connected to the amplifier input, a threshold driver, the output of which is connected to the Input of a binary counter .2j . In this device, the accuracy of information retrieval from the quantized scale, i.e., the accuracy of obtaining the counting pulses is determined by the transition zone (signal uncertainty zone) from high potential to low and the trigger zone of the threshold shaper. In addition, with changes in the high and low potency levels obtained from the OR (AND) sensor element on the threshold driver, for example, with temperature drift, non-identical illumination conditions of the sensor elements along the length of the quantized scale in time and so on. d., the stability of the converter is deteriorated. The aim of the invention is to improve the accuracy of the stability of the converter. The goal is achieved by the fact that a comparison unit, an additional sensitive element and a amplifier in series are inserted into the device, amplifiers outputs are connected to the inputs of the comparator unit, the output of which is connected to the threshold shaper input, the distance between the slit diaphragm is equal to an odd number of sections of the quantized scale the drawing shows a diagram of the Converter. The moving quantized scale 1 is located with the required clearance relative to the fixed slit diaphragm 2, in which two slits are provided, spaced at a multiple of an odd number of segments of the quantized scale 1 (the figure shows an interval equal to three segments). The readout system includes a source of radiation 3 and two sensitive elements (for example, photodetectors) 4 The latter are located below the aperture 2. 2. The outputs from to the 1st of each sensitive element And through amplifiers 5 are connected to the inputs of the comparison block whose output is connected through a threshold driver 7 to an input binary counter 8, the output of which 9 receive a digital code. The counting pulses 10 are received at the output of the imager 7 by moving i the quantized scale of the transducer. When moving the master element with the quantized scale 1 relative to the slit diaphragm 2, the signal removed from one sensing element 4 will begin to decrease, while the signal taken from another sensing element 4 will increase. These signals, amplified by the power of the amplifiers 5, are received at block 6 of the comparison. At the moment of equality of the signals, the comparison block b, together with the driver 7, generates the first count pulse 10. With further movement of the setting element. 1 cheating sm ity in antiphase; the condition that, at their next equality, appears at the output of the former 7, the counting pulse, etc. The generated counting pulses are fed to the input of a binary counter 8, the output of which 9 will receive a digital binary code proportional to the number of counting pulses. In order to increase the pickup accuracy (averaging) and the size of the signals received from the sensitive elements, several slits may be provided in front of each sensitive element on the slit diaphragm, and the distance between them for each sensitive element is a multiple of even the number of sections of the quantized scale. the slots are a multiple, as indicated above, odd NUMBER of plots of quantized SHKSHY. To further increase the accuracy of the pickup and the values of the signals received from the sensitive elements behind one group of slits, the distance between which within the group is a multiple of even number of segments of the quantized scale, and another group of the slits between which inside the group is also a multiple of even number of segments Quantized scale, while maintaining the above interval between groups, you can arrange several sensitive elements. The outputs of the sensing elements belonging to one group of slots are combined in the same way as the outputs of the elements of another group of slots. The use of the proposed converter makes it possible to increase the pick-up accuracy of the counting pulses by combining the transition zones of two signals in antiphase on the comparison unit, since the change in the values is high. and the low level of the potentials of the signals from the sensing elements does not affect the position at which the signals at the inputs of the comparator unit turn out to be equal. Claims of Invention A transducer of displacement into a code containing a radiation source arranged in series, a moving quantized scale, a slit diaphragm and a sensitive element, the output of which is connected to the input, an amplifier, a threshold driver, the output of which is connected to the input of a binary counter, characterized in that To improve the accuracy and stability of operation, a comparison unit is inserted in it, connected in series. An additional sensing element and amplifier, the outputs of the amplifiers are connected inputs of the comparison unit, whose output is connected to the input of a threshold shaper, the distance between the slits of the slit diaphragm is an odd number of portions quantized scale. Sources of information taken into account in the examination: l. Gitis EI.- Information converters for electronic digital computing devices, MgL., Gosenergoizdat, 1961, p., 212-216. 2. Filippov V.G. The numerators of the movements of M .., Voenizdat, 1965, p.113-. 115 xkl