csmstr - Omega Engineering

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CSSG – STRAIN GAGE INPUT PID MODULE PROGRAMMING CRIMSON USER MANUAL - MODULAR CONTROLLER DATA DESCRIPTION RANGE ACCESS AutoConstD Auto-tuned Derivative Value 0 – 600.0 sec R AutoFilter Auto-tuned Power Filter Value 0 – 60.0 sec R ActConstP Active Proportional Value 0 – 1000.0% R ActConstI Active Integral Value 0 – 6000.0 sec R ActConstD Active Derivative Value 0 – 600.0 sec R ActFilter Active Power Filter Value 0 – 60.0 sec R LOOP/POWER DATA DESCRIPTION RANGE ACCESS PowerFault Power Output value for input fault +/- 200.00% R/W PowerOffset Power Output Offset value +/- 100.00% R/W PowerDead Power Output Deadband value +/- 100.00% R/W PowerRevGain Power Output Reverse Gain value 0 – 500.00% R/W PowerDirGain Power Output Direct Gain value 0 – 500.00% R/W PowerRevHyst Power Output SmartOnOff Reverse Hysteresis 0 – 50.00% R/W PowerDirHyst Power Output SmartOnOff Direct Hysteresis 0 – 50.00% R/W RevLimitLo Reverse Low Limit 0 – 200.00% R/W RevLimitHi Reverse High Limit 0 – 200.00% R/W DirLimitLo Direct Low Limit 0 – 200.00% R/W DirLimitHi Direct High Limit 0 – 200.00% R/W LOOP/SCALEINPUT1 DATA DESCRIPTION RANGE ACCESS DispLo1 Input 1 display low value +/-30,000 R/W DispHi1 Input 1 display high value +/-30,000 R/W SiglLoKey1 Input 1 signal low – keyed-in (entered) value +/-30,000 R/W SigHiKey1 Input 1 signal high – keyed-in (entered) value +/-30,000 R/W SigLoApp1 Input 1 signal low – applied value +/-30,000 R SigHiApp1 Input 1 signal high – applied value +/-30,000 R StoreSigLo1 StoreSigHi1 Store input 1 signal low (edge triggered) – on the positive going edge, the millivolt signal applied to input 1 is saved as SigLoApp1 Store input 1 signal high (edge triggered) – on the positive going edge, the millivolt signal applied to input 1 is saved as SigHiApp1 0 or 1 (bit) R/W 0 or 1 (bit) R/W PAGE 48 http://www.redlion.net/controller
MODULE CONFIGURATION CSSG – STRAIN GAGE INPUT PID MODULE PROGRAMMING DATA DESCRIPTION RANGE ACCESS SelectScaling1 Select input 1 applied signals (level sensitive) – when high, the applied signal values are active; when low, the keyed-in signal values are active 0 or 1 (bit) R/W LOOP/SCALEINPUT2 The available data for ScaleInput2 is the same as ScaleInput1. LOOP/PEAKVALLEY DATA DESCRIPTION RANGE ACCESS PVPeak The maximum PV value measured since the last peak reset +/-30,000 R PVVall The minimum PV value measured since the last valley reset +/-30,000 R ResetPkVall ResetPeak ResetVall Reset Peak and Valley – Write this bit to 1 (level sensitive) to reset the peak and valley registers to the existing PV value. Reset Peak – Write this bit to 1 (level sensitive) to reset the peak register to the existing PV value. Reset Valley – Write this bit to 1 (level sensitive) to reset the valley register to the existing PV value. 0 or 1 (bit) R/W 0 or 1 (bit) R/W 0 or 1 (bit) R/W LOOP/TARE DATA DESCRIPTION RANGE ACCESS PVGross Gross PV value; direct result of PV assignment math, before tare. +/-30,000 R Inp1Gross Gross input 1 value; direct result of input scaling, before tare. +/-30,000 R Inp2Gross Gross input 2 value; direct result of input scaling, before tare. +/-30,000 R PVTareTot Inp1TareTot Inp2TareTot TarePV TareInp1 PV Tare Total – The sum of the tared PV values since the last reset of the PV tare total. Input 1 Tare Total – The sum of the tared input 1 values since the last reset of the input 1 tare total. Input 2 Tare Total – The sum of the tared input 2 values since the last reset of the input 2 tare total. Tare Process Value – Write this bit to a 1 (edge triggered) to tare (reset) the PV value to 0. The tared value is added to the PV tare total. Write this bit to a 1 (edge triggered) to tare (reset) the input 1 value to 0. The tared input 1 value is added to the input 1 tare total. +/-30,000 R +/-30,000 R +/-30,000 R 0 or 1 (bit) R/W 0 or 1 (bit) R/W REVISION 6 PAGE 49
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LP0631 CRIMSON 2 USER MANUAL MODULA
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GETTING STARTED TABLE OF CONTENTS T
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GETTING STARTED TABLE OF CONTENTS A
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GETTING STARTED TABLE OF CONTENTS A
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GETTING STARTED TABLE OF CONTENTS T
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GETTING STARTED TABLE OF CONTENTS I
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GETTING STARTED TABLE OF CONTENTS F
Page 15: GETTING STARTED TABLE OF CONTENTS S
Page 19 and 20: GETTING STARTED SYSTEM REQUIREMENTS
Page 21 and 22: QUICK START OVERVIEW QUICK START Th
Page 23 and 24: QUICK START MAPPING DATA To create
Page 25 and 26: QUICK START DOWNLOADING In the exam
Page 27 and 28: CRIMSON BASICS MAIN SCREEN ICONS CR
Page 29 and 30: CRIMSON BASICS SELECTING THE MODULA
Page 31 and 32: CRIMSON BASICS DOWNLOADING TO THE M
Page 33 and 34: CRIMSON BASICS DOWNLOADING TO THE M
Page 35 and 36: MODULE CONFIGURATION WORKING WITH M
Page 37 and 38: MODULE CONFIGURATION CSPID - PID MO
Page 53 and 54: MODULE CONFIGURATION CSSG - STRAIN
Page 65: MODULE CONFIGURATION CSSG - STRAIN
Page 69 and 70: MODULE CONFIGURATION CSTC/CSRTD - T
Page 71 and 72: MODULE CONFIGURATION CSINI/CSINV -
Page 73 and 74: MODULE CONFIGURATION CSINI/CSINV -
Page 75 and 76: MODULE CONFIGURATION CSOUT - ANALOG
Page 77 and 78: MODULE CONFIGURATION CSOUT - ANALOG
Page 79 and 80: MODULE CONFIGURATION CSDIO - DIGITA
Page 81: MODULE CONFIGURATION CSDIO - DIGITA
Page 84 and 85: PROTOCOL OPTIONS CRIMSON USER MANUA
Page 86 and 87: ETHERNET CONFIGURATION CRIMSON USER
Page 88 and 89: MAPPING DATA CRIMSON USER MANUAL -
Page 90 and 91: DATA TRANSFORMATION CRIMSON USER MA
Page 93 and 94: ADVANCED COMMUNICATIONS USING EXPAN
Page 95 and 96: ADVANCED COMMUNICATIONS SHARING SER
Page 97 and 98: ADVANCED COMMUNICATIONS USING ELECT
Page 99 and 100: ADVANCED COMMUNICATIONS USING ELECT
Page 101 and 102: ADVANCED COMMUNICATIONS WORKING WIT
Page 111 and 112: OPC COMMUNICATION OPC COMMUNICATION
Page 113 and 114: USING TIME MANAGEMENT When creating
Page 115 and 116: USING TIME MANAGEMENT selected, the
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CONFIGURING THE SYNCHRONIZATION MAN
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CONFIGURING THE FTP SERVER Numerous
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CONFIGURING DATA TAGS ALL ABOUT TAG
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CONFIGURING DATA TAGS CREATING TAGS
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CONFIGURING DATA TAGS EDITING PROPE
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CONFIGURING DATA TAGS EDITING FLAG
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CONFIGURING DATA TAGS EDITING INTEG
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CONFIGURING DATA TAGS EDITING MULTI
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CONFIGURING DATA TAGS EDITING STRIN
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CONFIGURING DATA TAGS MORE THAN TWO
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CONFIGURING DATA TAGS NOTES FOR EDI
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USING THE PAGE LIST CRIMSON USER MA
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SELECTING PRIMITIVES CRIMSON USER M
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EDITING PRIMITIVES CRIMSON USER MAN
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PRIMITIVE DESCRIPTIONS CRIMSON USER
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DEFINING SYSTEM ACTIONS CRIMSON USE
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ACTION DESCRIPTIONS CRIMSON USER MA
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ADVANCED TOPICS CRIMSON USER MANUAL
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USING THE PAGE LIST CRIMSON USER MA
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ADDING DISPLAY PRIMITIVES CRIMSON U
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SELECTING PRIMITIVES CRIMSON USER M
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GROUPING PRIMITIVES CRIMSON USER MA
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DEFINING ACTIONS CRIMSON USER MANUA
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SYSTEM PRIMITIVES CRIMSON USER MANU
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DEFINING PAGE PROPERTIES CRIMSON US
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ADDITIONAL SYSTEM PROPERTIES CRIMSO
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CHANGING THE LANGUAGE CRIMSON USER
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DATA AVAILABILITY CRIMSON USER MANU
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PROGRAM PROPERTIES CRIMSON USER MAN
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RETURNING VALUES CRIMSON USER MANUA
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PROGRAMMING TIPS CRIMSON USER MANUA
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PROGRAMMING TIPS CRIMSON USER MANUA
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NOTES FOR EDICT USERS CRIMSON USER
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CONFIGURING DATA LOGGING BATCH LOGG
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CONFIGURING DATA LOGGING DATA LOG P
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CONFIGURING DATA LOGGING THE LOGGIN
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CONFIGURING DATA LOGGING NOTES FOR
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WEB SERVER PROPERTIES CRIMSON USER
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COMPACTFLASH ACCESS CRIMSON USER MA
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WEB SERVER SAMPLES CRIMSON USER MAN
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WEB SERVER SAMPLES CRIMSON USER MAN
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USING THE SECURITY SYSTEM SECURITY
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USING THE SECURITY SYSTEM SECURITY
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USING THE SECURITY SYSTEM SPECIFYIN
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WRITING EXPRESSIONS DATA VALUES CHA
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WRITING EXPRESSIONS COMPARING VALUE
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WRITING EXPRESSIONS MANIPULATING BI
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WRITING EXPRESSIONS NOTES FOR EDICT
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RUNNING PROGRAMS CRIMSON USER MANUA
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USING RAW PORTS CRIMSON USER MANUAL
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SYSTEM VARIABLE REFERENCE HOW ARE S
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SYSTEM VARIABLE REFERENCE COMMSERRO
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SYSTEM VARIABLE REFERENCE DISPCONTR
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SYSTEM VARIABLE REFERENCE DISPUPDAT
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SYSTEM VARIABLE REFERENCE PI PI DES
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SYSTEM VARIABLE REFERENCE TIMEZONEM
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PROGRAMMING REFERENCE EXPRESSION OP
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PROGRAMMING REFERENCE PROGRAMMING S
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FUNCTION REFERENCE NOTES FOR EDICT
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FUNCTION REFERENCE ACOS(VALUE) ACOS
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FUNCTION REFERENCE ASIN(VALUE) ASIN
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FUNCTION REFERENCE ATAN2(A, B) ATAN
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FUNCTION REFERENCE CLEAREVENTS() CL
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FUNCTION REFERENCE COMMITANDRESET()
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FUNCTION REFERENCE COMPACTFLASHSTAT
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FUNCTION REFERENCE COPY(DEST, SRC,
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FUNCTION REFERENCE CREATEDIRECTORY(
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FUNCTION REFERENCE DATATOTEXT(DATA,
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FUNCTION REFERENCE DECTOTEXT(DATA,
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FUNCTION REFERENCE DELETEDIRECTORY(
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FUNCTION REFERENCE DEVCTRL(DEVICE,
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FUNCTION REFERENCE DISPOFF() DISPOF
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FUNCTION REFERENCE DRVCTRL(PORT, FU
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FUNCTION REFERENCE ENABLEDEVICE(DEV
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FUNCTION REFERENCE EXP(VALUE) EXP(V
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FUNCTION REFERENCE FILL(ELEMENT, DA
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FUNCTION REFERENCE FINDFILEFIRST(DI
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FUNCTION REFERENCE FINDTAGINDEX(LAB
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FUNCTION REFERENCE FTPGETFILE(SERVE
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FUNCTION REFERENCE GETALARMTAG(INDE
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FUNCTION REFERENCE GETCAMERADATA(PO
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FUNCTION REFERENCE GETDISKFREEBYTES
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FUNCTION REFERENCE GETDISKSIZEBYTES
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FUNCTION REFERENCE GETINTERFACESTAT
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FUNCTION REFERENCE GETMONTHDAYS(Y,
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FUNCTION REFERENCE GETNETID(PORT) G
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FUNCTION REFERENCE GETNETMASK(PORT)
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FUNCTION REFERENCE GETNOWDATE() GET
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FUNCTION REFERENCE GETPORTCONFIG(PO
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FUNCTION REFERENCE GETSTRINGTAG(IND
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FUNCTION REFERENCE GETUPDOWNDATA(DA
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FUNCTION REFERENCE GOTOPAGE(NAME) G
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FUNCTION REFERENCE HASACCESS (RIGHT
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FUNCTION REFERENCE INTTOTEXT(DATA,
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FUNCTION REFERENCE ISWRITEQUEUEEMPT
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FUNCTION REFERENCE LEN(STRING) LEN(
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FUNCTION REFERENCE LOG(VALUE) LOG(V
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FUNCTION REFERENCE LOGSAVE() LOGSAV
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FUNCTION REFERENCE MAKEINT(VALUE) M
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FUNCTION REFERENCE MEAN(ELEMENT, CO
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FUNCTION REFERENCE MIN(A, B) MIN(A,
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FUNCTION REFERENCE MUTESIREN() MUTE
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FUNCTION REFERENCE NOP() NOP() ARGU
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FUNCTION REFERENCE PI() PI() ARGUME
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FUNCTION REFERENCE POPDEV(ELEMENT,
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FUNCTION REFERENCE PORTGETCTS(PORT)
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FUNCTION REFERENCE PORTPRINT(PORT,
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FUNCTION REFERENCE PORTSETRTS(PORT,
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FUNCTION REFERENCE POSTKEY(CODE, TR
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FUNCTION REFERENCE RAD2DEG(THETA) R
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FUNCTION REFERENCE READDATA(DATA, C
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FUNCTION REFERENCE READFILELINE(FIL
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FUNCTION REFERENCE RIGHT(STRING, CO
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FUNCTION REFERENCE SCALE(DATA, R1,
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FUNCTION REFERENCE SENDMAIL(RCPT, S
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FUNCTION REFERENCE SETINTTAG(INDEX,
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FUNCTION REFERENCE SETNETCONFIG(POR
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FUNCTION REFERENCE SETPORTCONFIG(PO
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FUNCTION REFERENCE SETREALTAG(INDEX
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FUNCTION REFERENCE SHOWMENU(NAME) S
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FUNCTION REFERENCE SIN(THETA) SIN(T
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FUNCTION REFERENCE SLEEP(PERIOD) SL
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FUNCTION REFERENCE STDDEV(ELEMENT,
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FUNCTION REFERENCE STRIP(TEXT, TARG
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FUNCTION REFERENCE TAN(THETA) TAN(T
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FUNCTION REFERENCE TEXTTOADDR(ADDR)
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FUNCTION REFERENCE TEXTTOINT(STRING
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FUNCTION REFERENCE USECAMERASETUP(P
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FUNCTION REFERENCE USERLOGON() USER
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FUNCTION REFERENCE WRITEFILE(FILE,
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TROUBLESHOOTING GENERAL TROUBLESHOO
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TROUBLESHOOTING GENERAL PROBLEM POS
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TROUBLESHOOTING SERIAL COMMUNICATIO
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TROUBLESHOOTING PROGRAMS PROGRAMS P
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