B.2 explanation of increments – Festo Электроцилиндр User Manual

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Control via Ethernet (CVE)

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Festo – GDCP-CMMO-ST-EA-SY-EN – 1301a – English

B.2

Explanation of increments

Encoder increments

The CMMO operates in the field of drive control (e.g. in a path generator) with encoder increments

(EINC).

Interface increments

In contrast, so-called interface increments (SINC) are used at all user interfaces and in the field of

internal data management. This enables rounding errors to be avoided when reading and writing

values.

Conversion factors

The relationship between interface increments (SINC) and encoder increments (EINC) is established via

the following conversion factors:

– Transmission ratio of the gear unit

– Feed constant

Size of a SINC

Interface increments are at first dimensionless, i.e, they have no defined unit or size. The unit, i.e. the

size of an SINC, is specified in objects #218 “Unit of measurement” and #217 “Power of ten”:

During parameterisation in FCT you can use commonly used units for length specifica-

tions, such as millimetres or inches. You do not need any interface increments here.

Parameterise the drive completely in FCT and then read objects #218 “Unit of measure-

ment” and #217 “Power of ten”.

EXAMPLE:

#218 = 1, i.e. Metre

#217 = –6, i.e. 10

–6

1 mm = 1000 SINC