SU625226A1 - Shaft angular position-to-code converter - Google Patents

Description

The invention relates to automation and computing and can be used to connect analog sources of information voption with a digital computing device. Shaft angle converters are known to code that contains a dial with G code, fixed sensors, whose outputs are connected to G code converter. in the arithmetic code ij. These transducers have a complex structure and tight tolerances for alignment.

Another variant of the transducers is known, which contains a circular scale in the arithmetic code, one sensitive element of the first bit and two blocks of sensitive elements of the old bits arranged according to the V-scan method. The outputs of the sensitive elements are connected to the output code to arithmetic converter fzj. However, the need to convert the output code into arithmetic complicates the design of this converter.

The closest technical solution to the invention is a shaft rotation angle converter into a code comprising an encoder with one sensitive element of the first bit, connected to the source of the POLL signal, and two sensitive elements in each of the subsequent high bits, the output of the sensitive element of the first the discharge through the shaper is connected to the input of one sensitive element of the second bit, the output of the shaper through the inverter is connected to the input of another sensitive element the second time In a row, the outputs of the sensitive elements of the higher bits are pairwise combined and connected to the outputs of the converter h.

A disadvantage of the known device is the tight tolerances for the alignment of sensitive elements.

The purpose of the invention is to improve the manufacturability of the converter.

Claims (3)

This is achieved. Inverting an inverter is inserted into each high-order converter, the pairwise combined outputs of the sensitive elements are connected directly to one sensitive element and through the inverter to another sensitive element of the next high-level. In the drawing, a block diagram of the converter is given. The converter contains a code sensor 1 with one sensitive element 2 of the first bit and two sensitive elements, and 3 and 4 in subsequent higher bits. The output of the sensitive element 2 is connected via the shaper 5 to the input of one sensitive element 3 of the discharge bit, the output of the shaper 5 through the inverter 6 is connected to the input of the other sensitive element 4 of the second discharge. The outputs of the sensitive elements 3 and 4 are pairwise combined and connected to the outputs of the converter, to one sensitive element 3 of the next discharge and through inverters 7 to another sensitive element 4 of the next discharge. The input of the sensitive element 2 is connected to the POLL signal source 8, the sensitive elements 3 and 4 are arranged according to the V-sweep method. The Converter operates as follows. When the transducer rotor rotates, at the output of sensing element 2, voltage signals are generated from the interrogation signal from source 8, which are converted into logical signals 1 and O of the first discharge of inversion in the shaper 5 and the inverter b. The output signals of the first bit are used as interrogation signals for the second bit. Depending on the state of the second discharge, the direct discharge discharge is formed at the combined output of the sensitive elements 3 and 4 of this discharge, and it {shversi} at the inverter 7. The output of the bit is used to interrogate the next higher bit of the converter. In such a converter, a V-scan method is implemented with a selective polling of the pre-transmitter bits and the parallel generation of a code. Compared with the known double-brush transformer, tolerances and adjustment of sensitive elements are increased, the economic effect of using such a transducer is determined by its technical advantages. Claims of the shaft angle converter code containing a code sensor with one sensitive element of the first bit connected to the POLL signal source and two sensitive elements in each of the subsequent high bits, the output of the first bit sensitive element through the shaper is connected to the input of one sensitive element of the second discharge, the output of the former through the inverter is connected to the input of another sensitive element of the second discharge, the outputs of the sensitive elements of the older bits are combined in pairs and connected to the converter outputs, characterized in that, in order to increase the manufacturing logic of the converter, an inverter is inserted into each higher bit of the converter, the pairwise combined outputs of the sensing elements are connected directly to one sensitive element and the next first order bit. Sources of information taken into account during the examination: 1. Presnuhin L.N., et al. Photoelectric information converters, M., Mashinostroenie, 1974, p. 34-37, fig. 13, 14. 2. The same with. 28-33, fig. 9.12. 3. USSR author's certificate No. 409265, Mll. Q 08 C 9 / O4, 24.06.71.