AXIS#.VL.ARPF1 TO AXIS#.VL.ARPF4

Description

AXIS#.VL.ARPF1 sets the natural frequency of the pole (denominator) of AR filter 1. This value is FP in the approximate transfer function of the filter:

ARx(s) = [s²/(2πFZ)² +s/(QZ2πFZ) + 1]/ [s²/(2πFP)² +s/(QP2πFP) + 1]

 

The following block diagram describes the AR filter function; note that AR1 and AR2 are in the forward path, while AR3 and AR4 are applied to feedback:

AR1, AR2, AR3, and AR4 are used in velocity and position mode, but are disabled in torqueClosedTorque is the tendency of a force to rotate an object about an axis. Just as a force is a push or a pull, a torque can be thought of as a twist mode.

Discrete time transfer function (applies to all AR filters)

The velocity loop compensation is actually implemented as a digital discrete time system function on the DSP. The continuous time transfer function is converted to the discrete time domain by a backward Euler mapping:

s ≈ (1-z-1)/t, where t = 62.5 µs

The poles are prewarped to FP and the zeros are prewarped to FZ.

Versions

Action Version Notes
Implemented 02-00-00-000

General Information

Type

Read/Write

Units

Hz

Range

5 to 5,000 Hz

Default Value

AXIS#.VL.ARPF1: 675 Hz

VLARPF2 to VLARPF4: 500 Hz

Data Type

Float

Stored in Non Volatile Memory

Yes

Variants Supported

All variants are supported.

Fieldbus Information

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 Parameter Index Sub-Index Data Type Float Scale Units Access PDOClosedPDO is a type of protocol frame used in some fieldbuses. A PDO contains one or more object dictionary entries, which define the application data transferred between devices. Mappable
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 AXIS1.VL.ARPF1 0x5011 0x10 UDINT 1000:1 - RW False
AXIS1.VL.ARPF2 0x5011 0x11 UDINT 1000:1 - RW False
AXIS1.VL.ARPF3 0x5011 0x12 UDINT 1000:1 - RW False
AXIS1.VL.ARPF4 0x5011 0x13 UDINT 1000:1 - RW False
AXIS2.VL.ARPF1 0x5111 0x10 UDINT 1000:1 - RW False