Velocity Loop

Overview

The velocity loop is active when the drive operates in velocity mode (AXIS#.OPMODE = 1) or position mode (OPMODE = 2). The parameters that govern the velocity loop are shown in the Velocity Loop view. The various types of tuning for the drive adjust these parameters automatically, so normally adjustments to the velocity loop parameters within the velocity loop screen are not necessary.


Tabs in the Velocity Loop View

The velocity view includes the above active block diagram. If a block within the diagram is clicked on, the appropriate tab opens below.

Velocity Loop Default Settings and Changes

By default, a PI loop with a low-pass filter (AR1) is set in the drive.

The default value for the low-pass filter is 675 Hz. The low-pass filter is important for disturbance rejection, and it also reduces the audible noise of the system.

Velocity Loop Changes Based on Slider Tuning

Slider tuning (see Slider Tuning) uses the slider control to adjust the proportional gain and integral gain values of the velocity loop based on the desired bandwidth. If the bandwidth is adjusted using the slider tuner, upon returning to the velocity loop screen, different values will be present inside the proportional gain and integral gain fields. No adjustment is made to the filters automatically by using the slider tuner. Only the proportional and integral terms are adjusted.

Biquad Filters

Filters in the drive all exist as digital biquad filters in the servo loops. Lowpass, LeadLag, and Resonator filters are derived by the following equations. WorkBench handles all the math involved for the user. Enter the values in the fields for the type of filter desired.

Generate a Biquad as a Lowpass at Frequency F

Numerator Frequency = 5000

Numerator Q = Sqrt(2)/2 (this is 0.707)

Denominator Frequency = F

Denominator Q = Sqrt(2)/2 (this is 0.707)

Generate a Biquad as a LeadLag at Frequency F, Gain G

Numerator Frequency = F * 10^(-G/80)

Numerator Q = Sqrt(2)/2 (this is 0.707)

Denominator Frequency = F * 10^(G/80)

Denominator Q = Sqrt(2)/2 (this is 0.707)

Generate a Biquad as a Resonator at Frequency F, Gain G, Bandwidth Q

Numerator Frequency = F

Numerator Q = 10^(-G/40) * Q

Denominator Frequency = F

Denominator Q = 10^(G/40) * Q

Related Parameters

VL Parameters | AXIS#.CMDSOURCE | AXIS#.OPMODE

Related Topics

Limits | Service Motion | Tuning Your System | Motion Tasks