Program Examples:Cam table with shutdown and restart/zh-hans
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This is an example of using cam table with system stop. In this example, after system stopped we consider the possibility that the slave pfb was moved, so the master offset is to be calculated by means of linear interpolation.
'************************ cam table continuation ************************
' File: camTest.LIB
' Purpose: this program executes master-slave motion with relation of cam
' table. the objective of the task is to allow continuing slave
' motion even after system stopped: direction and target position
' in this program we have a chain of slaves:
' MASTER --[gear]--> INTERMIDIATE --[cam]--> CARRIAGE
' Version: 1.0.0.2
' Author: Eran Korkidi
' History: 1.MAY.2015 V1.0.0.0 - Eran Korkidi - Created
'***************************************************************************
common shared MASTER as generic axis = A4
common shared INTERMIDIATE as generic axis = A5
common shared CARRIAGE as generic axis = A3
common shared camCarriagePos as CAM
common shared camCarriageNeg as CAM
common shared xStop as long = 0
dim shared CARRIAGE_PREV_POS as string
dim shared CARRIAGE_PREV_CAM as string
dim shared CARRIAGE_MASTER_POS as string
dim shared lMasterHalfPath as long = 10000
dim shared dMasterPosition as double = 0.0
dim shared dCarriagePosition as double = 0.0
dim shared sActiveCam as string = "camCarriagePos"
program
dim i as long
dim dPositionDifferenace as double = 10.0
dim ltableSize as long
Attach MASTER ' allow task to control MASTER axis
Attach INTERMIDIATE ' allow task to control INTERMIDIATE axis
Attach CARRIAGE ' allow task to control CARRIAGE axis
try
Load tex_el.prg ' get data from previous run (positions and active cam table)
catch else
Print "tex-el.prg file doesnt exist, assigning default parameters"
CARRIAGE_PREV_POS = "0.0"
CARRIAGE_MASTER_POS = "0.0"
CARRIAGE_PREV_CAM = "camCarriagePos"
end try
dCarriagePosition = Val(CARRIAGE_PREV_POS) ' convert prev position from string to double
' if Abs(dCarriagePosition - CARRIAGE.pfb) > dPositionDifferenace then ' TBD threshold
dCarriagePosition = CARRIAGE.pfb ' get current position
call calcMasterOffset ' calculate the position of the master according to the position of the slave (carriage)
' end if
Sleep 100
dMasterPosition = Val(CARRIAGE_MASTER_POS) MOD (2 * lMasterHalfPath) ' find the position of MASTER inside the cycle of MASTER in the cam table. eg, 2100345.678 MOD 2000 = 345.678
sActiveCam = CARRIAGE_PREV_CAM ' assign the same camtable that was undergoing before system stop
try
ltableSize = lMasterHalfPath ' in this example we have distance of 10000 shared by 10000 master data entries
CreateCamData ltableSize camCarriagePos ' build cam table of size ltableSize = 10000
CreateCamData ltableSize camCarriageNeg ' build cam table of size ltableSize = 10000
LoadCamData CRG_POS.CAM camCarriagePos ' get data of cam table from previous run
LoadCamData CRG_NEG.CAM camCarriageNeg ' get data of cam table from previous run
catch 8042
catch 3077
catch else
for i = 1 to ltableSize ' in case the cam tables don't exist - built them
camCarriagePos.MasterData[i] = i-1 ' [0 , ...... , 10000]
camCarriagePos.SlaveData[i] = (i-1)*0.01 ' [0.0 , ...... , 100.0]
next
camCarriagePos.MasterData[ltableSize] = lMasterHalfPath
camCarriagePos.SlaveData[ltableSize] = lMasterHalfPath * 0.01
for i = 1 to ltableSize
camCarriageNeg.MasterData[i] = lMasterHalfPath + (i - 1) ' [10000 , ...... , 20000]
camCarriageNeg.SlaveData[i] = (lMasterHalfPath - (i - 1)) * 0.01 ' [100.0 , ...... , 0.0 ]
next
camCarriageNeg.MasterData[ltableSize] = 2 * lMasterHalfPath
camCarriageNeg.SlaveData[ltableSize] = 0.0
StoreCamData CRG_POS.CAM camCarriagePos ' keep cam table for next run
StoreCamData CRG_NEG.CAM camCarriageNeg ' keep cam table for next run
end try
camCarriagePos.Previous = camCarriageNeg ' /
camCarriageNeg.Previous = camCarriagePos ' / camCarriageNeg --> camCarriagePos --> camCarriageNeg --> camCarriagePos ....
camCarriagePos.Next = camCarriageNeg ' /
camCarriageNeg.Next = camCarriagePos ' /
INTERMIDIATE.MasterSource = MASTER.PositionFeedback
INTERMIDIATE.GearRatio = 1
INTERMIDIATE.Slave = GEAR
INTERMIDIATE.En = 1
CARRIAGE.MasterSource = INTERMIDIATE.Pcmd
CARRIAGE.GearRatio = 1.0
CARRIAGE.CamOffset = dMasterPosition ' here we assign the offset on the masterdata inside the range (masterData[1] .... masterData[activeCamTable.Size] )
if Ucase$(sActiveCam) = Ucase$("camCarriagePos") then ' set the correct active cam
CARRIAGE.FirstCam = camCarriagePos
else
CARRIAGE.FirstCam = camCarriageNeg
end if
CARRIAGE.Slave = CAM
CARRIAGE.En = 1
MASTER.En = 1
Jog MASTER 1 ' start run MASTER. at this point the CARRIAGE will move back n forth
while NOT xStop
Sleep 1
end while
Stop MASTER
while MASTER.IsMoving ' wait for MASTER full stop
Sleep 1
end while
CARRIAGE_PREV_POS = Str$(CARRIAGE.Pfb) ' store CARRIAGE position in file
CARRIAGE_MASTER_POS = Str$(MASTER.Pfb) ' store MASTER position in file
CARRIAGE_PREV_CAM = CARRIAGE.ActiveCam
Save File="tex_el.prg" type=All VariableName="CARRIAGE_*" Mode=New
Proceed MASTER ' because we dont want problems with applying another move command
CARRIAGE.Slave = FALSE ' otherwise next run the camtable init will fail
Detach MASTER
Detach INTERMIDIATE
Detach CARRIAGE
end program
'****************************************************************************
' function Name: calcMasterOffset
' Description: calculates the position of master offset for cam table
' Called From: local
' Author: Eran Korkidi
' Input Parameters: N/A
' Output Parameters: CARRIAGE_MASTER_POS
' Algorithm: finds the interpolated position of slave between two closest points
' assign the interpolated position of the master between relevant points
'****************************************************************************
sub calcMasterOffset
dim tableSize as long
dim i as long
dim interpolationRatio as double
if Instr(Ucase$(CARRIAGE_PREV_CAM), "POS") then
tableSize = camCarriagePos.size
if dCarriagePosition = camCarriagePos.slaveData[1] then
CARRIAGE_MASTER_POS = Str$(camCarriagePos.masterData[1]) ' it might be the case that the machine stopped in the start of the path
else
if dCarriagePosition = camCarriagePos.slaveData[tableSize] then
CARRIAGE_MASTER_POS = Str$(camCarriagePos.masterData[tableSize]) ' it might be the case that the machine stopped in the end of the path
else
for i = 1 to tableSize-1
if ( dCarriagePosition >= camCarriagePos.slaveData[i] AND dCarriagePosition <= camCarriagePos.slaveData[i+1] ) then
' find two closest points
interpolationRatio = (dCarriagePosition - camCarriagePos.slaveData[i])/(camCarriagePos.slaveData[i+1]-camCarriagePos.slaveData[i])
' calculate linear deviation between the two slave points
CARRIAGE_MASTER_POS = Str$(camCarriagePos.masterData[i] + interpolationRatio*(camCarriagePos.masterData[i+1] - camCarriagePos.masterData[i]))
' assign new master position according to the linear interpolation of the slave
end if
next
end if
end if
else
tableSize = camCarriagePos.size
if dCarriagePosition = camCarriageNeg.slaveData[1] then
CARRIAGE_MASTER_POS = Str$(camCarriageNeg.masterData[1]) ' it might be the case that the machine stopped in the start of the path
else
if dCarriagePosition = camCarriageNeg.slaveData[tableSize] then
CARRIAGE_MASTER_POS = Str$(camCarriageNeg.masterData[tableSize]) ' it might be the case that the machine stopped in the end of the path
else
for i = 1 to tableSize-1
if ( dCarriagePosition <= camCarriageNeg.slaveData[i] AND dCarriagePosition >= camCarriageNeg.slaveData[i+1] ) then
' find two closest points
interpolationRatio = (dCarriagePosition - camCarriageNeg.slaveData[i+1])/(camCarriageNeg.slaveData[i]-camCarriageNeg.slaveData[i+1])
' calculate linear deviation between the two slave points
CARRIAGE_MASTER_POS = Str$(camCarriageNeg.masterData[i] - interpolationRatio*(camCarriageNeg.masterData[i] - camCarriageNeg.masterData[i+1]))
' assign new master position according to the linear interpolation of the slave
end if
next
end if
end if
end if
end sub