SU491976A1 - Device for measuring the error of angle-code converters - Google Patents

Description

one

Devices for measuring the error are known, containing, blocks of forming the beginning and end of the quantum, connected by their inputs to the test angle-code converter, and outputs to the differential difference block, the output of which is connected to the first input of the increment block, the output of which is connected to an adder connect its second input with the output of the block for forming the quantum start error, and the output for the block reproduction.

Their disadvantage is that they do not take into account the differences in the reproducibility probabilities of each real quantum of the Angle-Code transducer being searched for, which significantly reduces the measurement accuracy.

The purpose of the invention is to increase the accuracy of the device.

The goal is achieved by entering the unit of the initial number of divisions into the device, the division unit, the multiplication unit and the calculation quantum block, the output of which is connected to the input of the division unit, the second input of which is connected to the output of the error difference block, and the output - the second input of which is connected to the block of the initial number of divisions, and the output to the second input of the increment block and the third input of the adder.

The drawing shows the functional s.hema of the proposed device.

The outputs of the angle-to-code converter under test are connected to a block 2 for forming the error of the beginning of a quantum and block 3 for forming the error of the end of a quantum. Their outputs are connected to the unit 4 of the difference in error, the output of which is connected to the inputs of the division unit 5 and the increment unit.

6. The second input of dividing unit 5 is connected to the output of block 7 of the calculated quantum and the input of multiplication unit 8. The other input of the latter is connected to block 9 of the initial number of divisions, and the output to the inputs of the control unit

6 and the adder 0. The latter, with its other inputs, is connected to the increment block 6 and the block 2 forming the error of the beginning of the quantum, and the output is connected to the playback block 11.

The device works as follows.

In the process of changing the angular position of the angle-code converter 1 for each selected quantum, respectively, in blocks 2 and 3, the error of its end and end is formed as an analog or digital signal, and in block 4, the algebraic difference of the beginning and end of the quantum. In division block 5, the ratio of this difference to the signal of block 7 is determined, which corresponds to the calculated reduction of the quantum. Result