Difference between revisions of "Program Examples:Cam table with shutdown and restart/zh-hans"
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− | {{Languages}} | + | {{Languages|Program_Examples:Cam_table_with_shutdown_and_restart}} |
− | + | 这是使用带有系统停止的凸轮表的示例。 在这个例子中,系统停止后,我们考虑从站pfb被移动的可能性,因此主偏移量将通过线性插值来计算。 | |
Latest revision as of 02:14, 17 July 2017
语言: | English • 中文(简体) |
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这是使用带有系统停止的凸轮表的示例。 在这个例子中,系统停止后,我们考虑从站pfb被移动的可能性,因此主偏移量将通过线性插值来计算。
'************************ 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