DRV.EMUEMODE

Description

When the emulated encoder output (EEO) is configured to generate an index pulse (Z pulse) once per rev (DRV.EMUEMODE is 1, 6, or 8) this parameter and DRV.EMUEZOFFSET define the location of the Z pulse. DRV.EMUEZOFFSET defines the position of the Z pulse within one revolution. The pulse is generated each time this position is reached. For example, if this value is set to 32,768 (180 degrees), the Z pulse will be generated at 180 degrees, 540 degrees, 900 degrees, and so on.

When the EEO is configured to generate and absolute index pulse (DRV.EMUEMODE is 2,7, or 9) this parameter, DRV.,EMUEZOFFSET and DRV.EMUEMTURN define the location of the Z pulse. DRV.EMUEMTURN is used to define which turn of the position range the Z pulse is located. DRV.EMUEZOFFSET is used to define the position of the Z pulse within one revolution. For example, if DRV.EMUETURN is set to 1, and DRV.EMUEZOFFSET is set to 32,768 (180 degrees), then the index pulse will be generated at position 540 degrees.

When the EEO is configured in pass through mode (DRV.EMUEMODE is 12, 13, or 14) the EEO Z pulse will be generated each time the encoder's physical Z pulse is generated (the physical Z pulse is "passed through").

DRV.EMUEMODE sets the EEO connector to act as either an input or output as follows.

Setting FunctionClosedA function calculates a result according to the current value of its inputs. A function has no internal data and is not linked to declared instances.

0 (recommended)

Input (see to select the type of inputs the secondary feedback will accept)

1

EEO Output, A/B with once per rev index

2

EEO Output, A/B with absolute index pulse.

3

Input, A/B signals (Deprecated)

4

Input, step and direction signals (Deprecated)

5

Input, up/down Signals (Deprecated)

6 Step/Dir with one Z-pulse/rev
7 Step/Dir with one absolute Z-pulse (depends on DRV.EMUEOFFSET and DRV.EMUETURN)
8 CW/CCW output with one Z-pulse/rev
9 CW/CCW output with one absoulte Z-pulse (depends on DRV.EMUEOFFSET and DRV.EMUETURN)
10 Allows the X9 connector to be used as a General Purpose I/O or SynqNetClosedSynqNet is a digital machine control network. Built on the 100BT physical layer, SynqNet provides a synchronous real-time connection between motion controllers, servo drives, stepper drives, I/O modules, and custom devices fieldbus controlled I/O
11 FB3 Input (Tertiary feedback is reported with FB3.P). Use FB3.MODE to select the feedback type.
12 Output - A/B with index pass through.
13 Output - Step/Dir with index pass through.
14 Output - CW/CCW with index pass through.
15 Output - A/B stepper control.
16 Output - Step/Dir stepper control.
17 Output - CW/CCW stepper control.

General Information

Type

R/W Parameter

Units

N/A

Range

0 to 17

Default Value

0

Data Type

Integer

Start Version

M_01-00-00-000

FieldbusClosedA Fieldbus is an industrial network system for real-time distributed control (e.g. CAN or Profibus). It is a way of connecting instruments in a plant design

Index/Subindex

Object Start Version

EtherCATClosed***EtherCAT is an open, high-performance Ethernet-based fieldbus system. The development goal of EtherCAT was to apply Ethernet to automation applications which require short data update times (also called cycle times) with low communication jitter (for synchronization purposes) and low hardware costs COE and CANopen

/0

M_01-00-00-000

Related Topics

DRV.EMUERES , DRV.EMUEZOFFSET , DRV.EMUEMTURN