Difference between revisions of "Granity user guide/Testing"

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==Troubleshooting==
 
==Troubleshooting==
 
*[[Fault location]] helps to identify the source of faults if nonzero
 
*[[Fault location]] helps to identify the source of faults if nonzero
 
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{{next|[[Servo motor tuning guide]]}}
 
[[Category:Granity user guide]]
 
[[Category:Granity user guide]]

Revision as of 10:32, 30 March 2015

GranityTesting.png

This tab serves following purposes:

  • Running repeating test sequence on motor
  • Capturing reference signal & feedback graphs from drive

Test stimulus generator

Test stimulus as numeric parameters and it's graphical representation

Test stimulus generator is a way to feed a repeating setpoint signal to the drive without having any other physical signals supplied. Test stimulus generates a square waveform with user specified amplitudes and timing.

The waveform generated is specified by 4 parameters:

Short GUI name GUI name Description How to use
TSP1 Target setpoint 1 The first setpoint level Adjust the value and observe the right side value conversion to the real world units such as amperes or millimeters.
TSD1 Delay 1 The active duration of the first setpoint Set the duration of the first setpoint lenght.
TSP2 Target setpoint 2 The second setpoint level Adjust the value and observe the right side value conversion to the real world units such as amperes or millimeters.
TSD2 Delay 2 The active duration of the second setpoint Set the duration of the second setpoint length.
TSE Enable test stimulues Control test stimulus feed Tick this checkbox to instantly start feeding test stimulus to the drive. Before ticking ensure that setpoints are set to safe levels and always be prepared stop motor safely if unexpected motion happens.
Example where
TSD1=0.1s
TSD2=0.5s
TSP1=1000→0.18A
TSP2=-500→-0.09A
Stimulusgraph m.png

Set Abs and Set Inc buttons

Set Abs button set the TSP1 or TSP2 value immediately as setpoint.

Set Inc button does the same as Set Abs, but instead of setting absolute value, setpoint is being incremented. I.e. if TSP1=100 and click 5 times Set Inc, then setpoint value becomes 500.

Capture & graphs

Capture controls

Options are:

  • [TSR] Sample rate - choose the sampling rate of the signals. The higher sampling rate used, the higher level detail will be captured (good to observe sharply changing edges of signal) but at the same time lenght of recorded capture will be shorter. Lower sample rate loses some detail, but gives longer capture duration.
  • Capture trigger dropbox - choose one of the following:
    • Capture instantly - Start capture button starts capture immediately
    • Capture in fault - Start capture button waits until drive faults and begins capture at the moment of fault occurring
    • Capture on setpoint change - Start capture button waits until setpoint is modified
    • Capture on setpoint change in positive direction - Start capture button waits until setpoint is modified in positive direction (capture not occurring if setpoint value is reduced)
  • Continuously repeating capture - if ticked, capture will be repeating continuously. Useful with test stimulus generator.

Capture signals selection

Tick the checkboxes to choose which signals to capture and display on the graph. The more signals selected, the less the capture duration will be. I.e. if one chooses 4 signals instead of 2, the time of capture will reduce to 1/2.

Device state

Devices state updates continuously while connected and shows status & fault register bits as well as state of physical I/O lines and setpoint value.

Status

Name Description Troubleshooting
Initialized True when drive has completed initialization procedure (such as phasing) If never goes on, check parameters, drive input voltage, safe torque off and enable inputs and possible faults.
Error recovering True when drive performs position return to the setpoint position after clear faults command is given
Tracking error warn True when position or velocity tracking error is greater than 1/8 of fault limit (FPT or FVT)
Target reached True when drive's internal motion profiler (velocity & acceleration limited motion) has reached the user setpoint value
Enabled True when drive has enabled state on. This allows drive to control motor if no faults are active.
Run True when drive is initializing or controlling motor. Goes false if enabled is false or faults are active
Homing active True when drive is performing homing sequence. Goes false after homing is complete or not enabled
Braking True when motor is being braked electrically and/or mechanically
Permanent stop True when drive requires restart before continuing motor control. Goes true when changing certain parameters or if initialization fails Restart drive to see if the state clears. If not, check parameterization and usage errors.
Voltages good True when HV DC bus voltage is withing configured range (from FUV to FOV)
Fault stopped True when drive is disabled true to active fault state Perform clear drive faults function (from Connect tab). If problem repeats, check motor & tuning parameters and operating conditions. See fault register and fault location for hints.
Ready for use True when drive has performed all initializations, possible homing and is enabled and running. When true, drive is ready to follow user setpoint commands
STO active True when safe torque off is active. In Argon this monitors only STO2.
Name Description
HV bus voltage A measured HV DC bus voltage. If drive is supplied by AC voltage, then this should be approximately 1.41 times AC RMS voltage.
Output current Actual measured motor current
Velocity feedback Actual measured velocity of motor (hardware scale)
Position feedback Actual measured position of motor (hardware scale/encoder counts)
Setpoint value Actual setpoint value

Fault register

Name Description Troubleshooting
Tracking error Drive stopped due to position or velocity tracking error getting larger than configured limit (FPT or FVT) Check settings, operating conditions and fault limits to resolve.
Over velocity Motor has exceeded the speed limit defined at FEV
Hardware Drive internal error has occurred Possibly external interference (check wiring and EMI suppression) and stability of logic supply voltage. If problem stays, contact Granite Devices support.
Over temperature Drive temperature has exceeded its maximum value
Feedback Failure in feedback device has been detected
Over current Measured current was exceeding the limit value (current spike) Check wiring or try different FOC value
Internal comm error Drive internal error has occurred Possibly external interference (check wiring and EMI suppression) and stability of logic supply voltage. If problem stays, contact Granite Devices support.
Power stage forced off True when some of the fault states is forcing power stage off to protect drive. Motor is freely spinning unless braked mechanically.
Under voltage HV DC bus voltage below FUV value Check voltage, parameters and safe torque off
Over voltage HV DC bus voltage above FOV value Check voltage and FOV. If happens during motor deceleration, then a braking resistor is needed.
Motion range Motor has been commanded outside the allowed travel boundary. I.e. driven to limit switch when LFS is set to fault stop
Firmware error Drive internal error has occurred Possibly external interference (check wiring and EMI suppression) and stability of logic supply voltage. If problem stays, contact Granite Devices support.
Init Initialization failed. Possible reasons: drive disabled or faulted during initialization or initialization time-outed Check enable signal, parameters, wiring and faults
Motion Motor stall or loss of feedback signal detected Adjust FMO to larger value or disable it
SimpleMotion SimpleMotion V2 Communication error detected, possibly connection lost, invalid parameter value is sent or transfer error caused by EMI or bad wiring
Fault location ID See Fault location

Troubleshooting