1 positioning control, 1 features of qd75, Melsec-q – MITSUBISHI ELECTRIC Mitsubishi Programmable Logic Controller QD75D User Manual

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MELSEC-Q

1 PRODUCT OUTLINE

1.1 Positioning control

1.1.1 Features of QD75

The features of the QD75 are shown below.

(1) Availability of one, two, and four axis modules

(a)

One, two and four axis modules are available for both the open collector

system pulse output (QD75P1, QD75P2, and QD75P4) and differential

driver system pulse output (QD75D1, QD75D2, and QD75D4), comprising

six different models.

A model is determined by the drive unit type and number of axes. (Refer to

Section 2.2.)

(b)

For connecting any of the QD75 modules to the base unit, a single slot and

32 dedicated I/O channels are required.

Within the limit imposed by the maximum number of inputs and outputs

supported by the PLC CPU, up to 64 modules can be used. (Refer to

Section 3.1.)

(2) Wide variety of positioning control functions

(a)

A wide variety of positioning control functions essential to any positioning

system are supported: positioning to an arbitrary position, fixed-feed

control, equal-speed control, and so on. (Refer to Section 5.3 and 9.2.)

1)

Up to 600 positioning data items, including such information as

positioning addresses, control systems, and operation patterns, can be

prepared for each axis.

Using the prepared positioning data, the positioning control is

performed independently for each axis. (In addition, such controls as

interpolation involving two to four axes and simultaneous startup of

multiple axes are possible.)

2)

Independent control of each axis can be achieved in linear control

mode (executable simultaneously over four axes).

Such control can either be the independent positioning control using a

single positioning data or the continuous positioning control enabled by

the continuous processing of multiple positioning data.

3)

Coordinated control over multiple axes can take the form of either the

linear interpolation through the speed or position control of two to four

axes or the circular interpolation involving two axes.

Such control can either be the independent positioning control using a

single positioning data or the continuous positioning control enabled by

the continuous processing of multiple positioning data.

(b)

For each positioning data, the user can specify any of the following control

systems: position control, speed control, speed-position switching control,

position-speed switching control, and so on. (Refer to Section 5.3 and 9.2.)