Name: Keba ServoOne junior
Brand: Keba
Rating: 4 (1 reviews)

To Next Page

To Previous Page

P No. Index Name / Settings Unit Description

 0 ResExc us Excitersignalphaseshift

  Delay us Compensationforcommutationangle

delay

566 0 ENC_CH2_Amplitude ± Correctionofamplitudeforcablelengths>

50m(onlyafterconsultationwithKEBA).

567 0 ENC_CH2_EncObsAct  Amplitudeofanaloguesignal

Table 6.16: Encoder configuration channel 2 (X6) parameters (continue)

The Sel and Lines parameters are self-explanatory.

Other parameters, such as Num and Denom, are described elsewhere (see Section

"Encoder gearing X6" on page 77).

l P 561[0] - ENC_CH2_Corr=Signalcorrectiontype

TheGPOCroutineusedfortracksignalcorrectionpurposesforsine/cosine

signalsisusedtocompensateforsystematicerrors.Theroutineiscontrolled

withtheCorrandCorrValparameters(seeSection"SignalcorrectionGPOC

(GainPhaseOffsetCorrection)"onpage75).

l P 563[0] - ENC_CH2_EncObsMin=Encodermonitoringminimum,sqrt

(a²+b²)

ThisparameterisusedtoscaletheresolverandSinCoswirebreak

monitoringandrepresentsthe“downwardsthreshold”foranerrormessage.

Thedefaultsettingis0.2,correspondingtoapprox.20%ofthetracksignals’

amplitude(approx.80%correspondstoapprox.1Vss).IfEncObsMinisset

to0,theresolverandSinCoswirebreakmonitoringwillbedisabled(see

Section"Channel1:InterfaceX7"onpage59aswell).

6.6.1Compensationforlongresolvercables

When using long resolver cables, there will be a phase shift between the controller’s

exciter output signal and the controller’s A/B track input signals (B: S1-S3, cos and A:

S2-S4, sin). This phase difference can be compensated for with P565[0] - ResExc:

ResExc is the time, in µs (microseconds), by which the resolver excitation will lead.

Moreover, P565[1] - Delay can be used to compensate for a commutation dead

ID No.: 0842.26B.5-01Date: 09.2020

ServoOne- Device Help

6 Encoder

time, which can become important in the case of higher rotating field frequencies.

When there is an absolute reduction in signal strengths (amplitudes) as a result of

the long cables, P566[0] - ENC_CH2_Amplitude can be used to subsequently

increase these amplitudes (up to a max. of +10.5%) so that a drive signal level of

80–85% for signals A and B is once again attained. This is achieved by adjusting the

resolver excitation amplitude. Parameter P567[0] - ENC_CH2_EncObsAct can be

used to check the effects of adjusting the compensation settings. It returns the length

of the phasor for signals A and B (sqrt(a²+b²)) and is accordingly a measure of “the

amplitude” of signals A and B: If the phase shift is properly corrected at the end of the

compensation adjustment process, you can save the settings.

NOTE

l ThisfunctionisnotavailablefortheServoOnejunior.

l Donotusecablelengths>50mwithoutfirstconsultingwithKEBA

6.6.2SignalcorrectionGPOC(GainPhaseOffsetCor-

rection)

The resolver and SinCos incremental encoder demonstrate systematic errors that

are reflected in the measured position and in the speed calculated from this (gain

and phase errors, offset components of the tracking signal). The GPOC method for

track signal correction compensates systematic errors. GPOC is available for

encoder channels 1 and 2.

Brand	Keba
Model	ServoOne junior
Category	Controller
Language	English

Keba ServoOne junior Device Help

Table of Contents

Other manuals for Keba ServoOne junior

Questions and Answers:

Keba ServoOne junior Specifications

Related product manuals