Added eulerscan.tcl from ics1-wombat

Updated to get in-situ changes to motor configurations (eg monochromator resolvers)
r3072 | ffr | 2011-02-25 19:12:19 +1100 (Fri, 25 Feb 2011) | 2 lines

site_ansto/instrument/hipd/config/commands/eulerscan.tcl

@@ -0,0 +1,107 @@
+ 
+# Euler cradle scan commands for texture runs
+# AJS Dec 2010
+
+
+# SetHistoSync: sets the histogram to receive $framenum worth of frames on receiving
+# TTL pulse in frame sync input. Note: Framebuffer should be set to OFF for long runs
+
+proc SetHistoSync {framenum} {
+	histmem stop
+	bat_table -set NO_BAT_ENTRIES $framenum NO_BAT_PERIODS $framenum 
+	bat_table -set NO_REPEAT_ENTRY 1 NO_REPEAT_TABLE 1 NO_EXECUTE_TABLE 1 PERIOD_INDICES { 0 1 }
+	fat_table -set NOS_PERIODS $framenum
+	oat_table -set T {0 2200000} NTC 1
+	histmem loadconf
+	histmem fsrce EXTERNAL
+}
+
+publish SetHistoSync user
+
+# SetHistoNormal: resets the histo for standard operation
+
+proc SetHistoNormal {} {
+	histmem stop
+	bat_table -set NO_BAT_ENTRIES 1 NO_BAT_PERIODS 1 
+	bat_table -set NO_REPEAT_ENTRY 0 NO_REPEAT_TABLE 0 NO_EXECUTE_TABLE 0 PERIOD_INDICES { 0}
+	fat_table -set NOS_PERIODS 1
+	oat_table -set T {0 2200000} NTC 1
+	histmem loadconf
+	histmem fsrce INTERNAL
+	proc ::histogram_memory::pre_count {} {}
+}
+
+# continous scan for EPHI- the euler cradle phi stage (innermost axis)
+# note make sure controller 2 has the PHISCAN code in it 
+
+publish SetHistoNormal user
+
+
+proc EphiCtsScan {start step range steptime} {
+
+# magic number: steps per rotation for phi
+	set ephisteps -12500
+	set ephispeed [expr {($step*1.0)/$steptime}]
+	set numsteps [expr {round($range/$step)}]
+# broadcast $omspeed $numsteps
+
+# run ephi to start angle -1 so that first pulse signals as ephi crosses 0 angle
+# at correct velocity
+	ephi accel 1
+	ephi decel 1
+	ephi speed 3
+	drive ephi [expr {$start-1}]
+	ephi speed $ephispeed
+	ephi accel [expr {$ephispeed*1.2}]
+
+# now set ephi parameters to galil and clear the bit
+
+	set scval [expr {($range+2.2)*$ephisteps}]
+	set stval [expr {$ephisteps * $step}]
+broadcast $scval $stval
+	som send CTLEN=$scval
+	som send CTSTEP=$stval
+#	som send OMN = [expr {$numsteps+1}]
+	som send CB5
+
+	proc ::histogram_memory::pre_count {} {
+		ephi send "XQ #EPHSCAN,2"
+	}
+
+	histmem mode unlimited
+	histmem start block
+
+	newfile HISTOPERIOD_XY
+	for {set i 0} {$i<$numsteps} {incr i} {save $i}
+	ephi speed 1
+
+
+#	this we needed when it didn't work properly
+#	proc ::histogram_memory::pre_count {} {} 
+#	ephi send SHC
+#	ephi send SPC=25000
+#	ephi send BCG
+#	wait 3
+#	ephi send "XQ #THREAD0,0"
+#	wait 3
+#	ephi reset
+}
+publish EphiCtsScan user
+
+proc EulerCtsScan {range step steptime} {
+	set numsteps [expr {round($range/$step)}]
+	SetHistoSync $numsteps
+	foreach chi {0 15 30 45 60 75 90} {
+		drive echi $chi
+		EphiCtsScan [expr {-$range/2}] $step $range $steptime
+	}
+#	SetHistoNormal
+}
+
+publish EulerCtsScan user
+
+proc KillEphi {} {
+	ephi send HX2
+	ephi send STC
+	ephi reset
+}

site_ansto/instrument/hipd/config/commands/hvcommands.tcl

@@ -1,3 +1,17 @@
+proc SetVolt {volt} {
+	if {$volt== 0} {
+		PulserOff
+	} else {
+		set pulservolt [expr {($volt*1.0)/1000.0}]
+		pulser send VOLT:OFFS $pulservolt
+		pulserDC $pulservolt
+		PulserOn
+	}
+}
+
+proc GetVolt {} {
+	pulser send VOLT:OFFS?
+}
 
 proc SingleVolt {volt oscno} {
 	histmem mode unlimited
@@ -5,10 +19,10 @@ proc SingleVolt {volt oscno} {
 	if {$volt== 0} {
 		PulserOff
 	} else {
-		set pulservolt [expr {($volt*1.0)/4000.0}]
+		set pulservolt [expr {($volt*1.0)/1000.0}]
 		pulser send VOLT:OFFS $pulservolt
-#		PulserOn
-#		pulser send "APPL:DC DEF,DEF,$pulservolt"
+		pulserDC $pulservolt
+		PulserOn
 	}
 	oscmd start $oscno
 	hmm countblock
@@ -25,7 +39,7 @@ proc SetDC {} {
 
 proc VoltRamp {start step fin oscno} {
 	histmem mode unlimited
-	set waszero 0
+
 	newfile HISTOGRAM_XY
 	set loopvar 1
 	set i 0 
@@ -35,15 +49,10 @@ proc VoltRamp {start step fin oscno} {
 		if {$j< $fin && $step < 0} {break}
 		if {$j== 0} {
 			PulserOff
-			set waszero 1
 		} else {
-			set pulservolt [expr {($j*1.0)/4000.0}]
-			pulser send VOLT:OFFS $pulservolt
-			if {$waszero==1} {
-				PulserOn
-				set waszero 0
-			}
-#			pulser send "APPL:DC DEF,DEF,$pulservolt"
+			set pulservolt [expr {($j*1.0)/1000.0}]
+			pulserDC $pulservolt
+			PulserOn
 		}
 		oscmd start $oscno
 		hmm countblock
@@ -53,6 +62,43 @@ proc VoltRamp {start step fin oscno} {
 	oscmd stop
 }
 
+proc VoltTextureRamp {start step fin mot tstart tstep tfin oscno} {
+	histmem mode unlimited
+
+
+	set loopvar 1
+	set i 0 
+	while {$loopvar} {
+		set j [expr {$i*$step+$start}]
+		if {$j> $fin && $step > 0} {break}
+		if {$j< $fin && $step < 0} {break}
+		if {$j== 0} {
+			PulserOff
+		} else {
+			set pulservolt [expr {($j*1.0)/1000.0}]
+			pulserDC $pulservolt
+			PulserOn
+		}
+		sampledescription voltage $j
+		broadcast voltage $j
+		newfile HISTOGRAM_XY
+		set m 0
+		while {1} {
+			set n [expr {$m*$tstep+$tstart}]
+			if {$n> $tfin && $tstep > 0} {break}
+			if {$n< $tfin && $tstep < 0} {break}
+			drive $mot $n
+			oscmd start $oscno
+			hmm countblock
+			save $m
+			incr m	
+		}
+		oscmd stop
+		incr i
+	}
+}
+
+
 proc SquarePulseVolt {start step fin freq oscno} {
 	histmem mode unlimited
 	newfile HISTOGRAM_XYT
@@ -65,7 +111,7 @@ proc SquarePulseVolt {start step fin freq oscno} {
 		if {$j== 0} {
 			PulserOff
 		} else {
-			set pulservolt [expr {($j*1.0)/4000.0}]
+			set pulservolt [expr {($j*1.0)/1000.0}]
 			PulserSquare $freq $pulservolt
 			PulserOn
 #			pulser send "APPL:SQU $freq,$pulservolt,0"
@@ -84,7 +130,7 @@ proc SquarePulseFreq {volt freqlist bins oscno} {
 	set loopvar 1
 	set i 0 
 	foreach freq $freqlist {
-		set pulservolt [expr {($volt*1.0)/4000.0}]
+		set pulservolt [expr {($volt*1.0)/1000.0}]
 		histmem_period_strobo $freq $bins
 		wait 3
 		PulserSquare $freq $pulservolt
@@ -98,16 +144,38 @@ proc SquarePulseFreq {volt freqlist bins oscno} {
 	oscmd stop
 }
 
+proc SinePulseFreq {volt freqlist bins oscno} {
+	histmem mode unlimited
+	newfile HISTOGRAM_XYT
+	set loopvar 1
+	set i 0
+	foreach freq $freqlist {
+		set pulservolt [expr {($volt*1.0)/1000.0}]
+		histmem_period_strobo $freq $bins
+		wait 3
+		PulserSin $freq $pulservolt
+		PulserOn
+		oscmd start $oscno
+		hmm countblock
+		save $i
+		incr i
+	}
+	oscmd stop
+}
+
+
+
 proc UniPulseFreq {volt freqlist bins oscno} {
 	histmem mode unlimited
 	newfile HISTOGRAM_XYT
 	set loopvar 1
 	set i 0 
 	foreach freq $freqlist {
-		set pulservolt [expr {($volt*1.0)/4000.0}]
+		set pulservolt [expr {($volt*1.0)/2000.0}]
 		histmem_period_strobo $freq $bins
 		wait 3
-		PulserSquareOffs $freq $pulservolt [expr {$pulservolt/2}]
+#	PulserSquareOffs $freq $pulservolt [expr {$pulservolt/2}]
+	PulserSquareOffs $freq $pulservolt $pulservolt
 		PulserOn
 #		pulser send "APPL:SQU $freq,$pulservolt,[expr {$pulservolt/2}]"
 		oscmd start $oscno
@@ -118,9 +186,117 @@ proc UniPulseFreq {volt freqlist bins oscno} {
 	oscmd stop
 }
 
+proc UniPulseFatigue {volt freq bins oscno reps runs} {
+	histmem mode unlimited
+	set pulservolt [expr {($volt*1.0)/1000}]
+	set halfvolt [expr {$pulservolt/2.0}]
+	histmem_period_strobo $freq $bins
+	wait 3
+	PulserSquareOffs $freq $halfvolt $halfvolt
+	PulserOn
+	for {set i 0} {$i<$runs} {incr i} {
+		newfile HISTOGRAM_XYT
+		for {set j 0} {$j<$reps} {incr j} {
+			oscmd start $oscno
+			hmm countblock
+			save $j
+		}
+		oscmd stop
+	}
+	PulserOff
+	Histmem_strobo_off
+
+}
+
+	
+
+
+proc PulserBurst {} {
+	pulser send BURS:MODE TRIG
+	pulser send TRIG:SOUR BUS
+	pulser send BURS:STAT ON
+	PulserOn
+	pulser send *TRG
+	while {1} {
+		set sval [pulser send *OPC?]
+		if {[string first 1 $sval] >-1} {break}
+	}
+	PulserOff
+
+}
+
+
+proc VoltPulseRun {vlo vhi freq cycl} {
+	PulserOff
+
+	pulser send VOLT:LOW [expr {$vlo/1000.0}]
+	pulser send VOLT:HIGH [expr {$vhi/1000.0}]
+	pulser send FREQ $freq
+	pulser send BURS:PHAS [expr {90.0 - ($vhi*180.0)/(($vhi-$vlo)*1.0)}]
+	pulser send BURS:MODE TRIG
+	set ploop [expr {int($cycl/50000)}]
+	set prem [expr {$cycl % 50000}]
+	if {$ploop >0} {
+		for {set i 0} {$i< $ploop} {incr i} {
+			Pulser send BURS:NCYC 50000
+			PulserBurst
+		}
+	}
+	pulser send BURS:NCYC $prem
+	PulserBurst
+	PulserOff
+	pulser send BURS:STAT OFF
+
+}
+
+
+proc VoltPulses {vlo vhi freq cycl} {
+	PulserOff 
+	pulser send FUNC SQU
+	VoltPulseRun $vlo $vhi $freq $cycl
+}
+
+proc VoltTriPulses {vlo vhi freq cycl} {
+	PulserOff
+	pulser send FUNC RAMP
+	pulser send FUNC:RAMP:SYMM 50
+	VoltPulseRun $vlo $vhi $freq $cycl 
+}
+
+proc OneTri {volt period} {
+	PulserOff
+	if {$volt > 0} {
+		pulser send VOLT:LOW 0
+		pulser send VOLT:HIGH [expr {$volt/1000.0}]
+		pulser send BURS:PHAS -90
+	} else {
+		pulser send VOLT:LOW [expr {$volt/1000.0}]
+		pulser send VOLT:HIGH 0
+		pulser send BURS:PHAS 90
+	}
+	pulser send FUNC RAMP
+	pulser send FUNC:RAMP:SYMM 50
+	pulser send FREQ [expr {1.0/$period}]
+
+	pulser send BURS:MODE TRIG
+
+	pulser send BURS:NCYC 1
+	PulserBurst
+	PulserOff
+}
+
+	
+
+publish GetVolt user
 publish SetDC user
+publish SetVolt user
 publish SingleVolt user
 publish VoltRamp user
 publish SquarePulseVolt user
 publish SquarePulseFreq user
 publish UniPulseFreq user
+publish VoltTextureRamp user
+publish VoltPulses user
+publish VoltTriPulses user
+publish OneTri user
+publish UniPulseFatigue user

site_ansto/instrument/hipd/config/commands/pulser.tcl

@@ -9,7 +9,10 @@ proc PulserOff {} {
 }
 
 proc PulserSin {Freq Volt} {
-	pulser send FUNC SIN
+	set resp [pulser send FUNC?]
+	if {[string first "SIN" $resp ] == -1 } {
+		pulser send FUNC SIN
+	}
 	pulser send VOLT $Volt
 	pulser send FREQ $Freq
 	pulser send VOLT:OFFS 0
@@ -17,7 +20,10 @@ proc PulserSin {Freq Volt} {
 }
 
 proc PulserSquare {Freq Volt} {
-	pulser send FUNC SQU
+	set resp [pulser send FUNC?]
+	if {[string first "SQU" $resp ] == -1 } {
+		pulser send FUNC SQU
+	}
 	pulser send VOLT $Volt
 	pulser send FREQ $Freq
 	pulser send VOLT:OFFS 0
@@ -25,7 +31,10 @@ proc PulserSquare {Freq Volt} {
 }
 
 proc PulserSquareOffs {Freq Volt Offs} {
-	pulser send FUNC SQU
+	set resp [pulser send FUNC?]
+	if {[string first "SQU" $resp ] == -1 } {
+		pulser send FUNC SQU
+	}
 	pulser send VOLT $Volt
 	pulser send FREQ $Freq
 	pulser send VOLT:OFFS $Offs
@@ -36,7 +45,7 @@ proc PulserSquareOffs {Freq Volt Offs} {
 proc PulserDC {Volt} {
 	set resp [pulser send FUNC?]
 	broadcast $resp
-	if {$resp != "DC"} {
+	if {[string first "DC" $resp ] == -1 } {
 		pulser send FUNC DC
 	}
 	pulser send VOLT:OFFS $Volt
@@ -51,4 +60,4 @@ publish PulserOff user
 publish PulserSin user
 publish PulserSquare user
 publish PulserDC user
-publish PulserSquareOffs user
+publish PulserSquareOffs user