Response Electronics CL6011B Specifikace
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- Strana / 320
- Tabulka s obsahem
- KNIHY
- Configuring CL6010, CL6210 1
- Documentation Map 3
- Table of Contents 10
- 1 Introduction 11
- 1.4 Related Documents 12
- 1.5 Document Content 12
- 1.6 Conventions 12
- Introduction 13
- Original Ć June 1990 13
- CE4.2:CL6211 13
- 1Ć4 Introduction 14
- 2 Product Overview 15
- 2Ć2 Product Overview 16
- 2Ć3Product Overview 17
- H 2-wide unit 18
- H 4-wide unit 18
- 2Ć5Product Overview 19
- 2-WIDE IAC 4-WIDE IAC 19
- 2Ć6 Product Overview 20
- 3 Theory Of Operation 21
- 3.1.3 Overload 22
- 3.2 Point Processing 23
- 3.2.2 Fast Scan Controllers 24
- 3.3 Direct Control Points 25
- 3.3.1.2 Bias & Gain 26
- Direct Action Reverse Action 27
- Setpoint 30
- 3.3.1.6 Error Squared 31
- 3.3.1.7 Notch Gain 31
- 3.3.1.8 Adaptive Gain 32
- GF=1 GF=1 34
- GF>1 GF>1 34
- 1>GF>0 1>GF>0 34
- 0% 100%Analog Variable 34
- 3.3.2 Station Types 37
- 3.3.2.1 Modes 38
- 3.3.2.2 Mode Transfers 38
- am 50
- 3.4 Upload/Download 68
- 3.5 Communications 70
- 3.5.3 Task Priorities 71
- 3.6 Redundancy 73
- 3.6.5 Failure Detection 76
- 3.7 Controller Self Test 79
- 3.7.7 Free Time Computation 80
- 4 Configuration 83
- X00263:CL6211-0 84
- 4.1.2.1 Upload 86
- 4.1.2.2 Documentation 86
- 4Ć5Configuration Overview 87
- 4.2 Device Definition 88
- 4.2.1 FST Registers 89
- 4.2.2 Aux EU Definition 90
- H Station Type 93
- 4Ć12 DCP Configuration 94
- H Man H Aut/Man/DDC 95
- H Aut/Man H Man/DDC 95
- 4Ć14 DCP Configuration 96
- 4Ć15DCP Configuration 97
- 4Ć16 DCP Configuration 98
- 4Ć17DCP Configuration 99
- 4Ć18 DCP Configuration 100
- 4Ć19DCP Configuration 101
- 4.3.4 Station Parameters 102
- 4Ć21DCP Configuration 103
- 4Ć22 DCP Configuration 104
- 4Ć23DCP Configuration 105
- 4Ć24 FST Configuration 106
- 4Ć25FST Configuration 107
- 4Ć26 FST Configuration 108
- 4Ć27FST Configuration 109
- 4Ć28 FST Configuration 110
- AAGM AAGM 111
- 4Ć32 FST Configuration 114
- ADSVT ADSVT 115
- CONFIGURATION FORMAT: AIN ( 116
- OPERAND DESCRIPTIONS: 116
- FUNCTION EQUATIONS: 117
- AINEU AINEU 118
- AINSQR AINSQR 120
- AINTC AINTC 122
- ALMLD ALMLD 124
- ALMLD ALMLD 125
- ALMST ALMST 126
- AND AND 127
- AOUT AOUT 128
- 4Ć48 FST Configuration 130
- BDET BDET 131
- CASC CASC 132
- 4Ć52 FST Configuration 134
- CNTRL CNTRL 135
- %CNTRL %CNTRL 136
- CONFIGURATION FORMAT: CTR ( 137
- DAGM DAGM 139
- DASVT DASVT 141
- CONFIGURATION FORMAT: DI ( 142
- 4Ć62 FST Configuration 144
- OPERAND FORMAT: 145
- CONFIGURATION FORMAT: DO ( 146
- CONFIGURATION FORMAT: DT ( 148
- 4Ć68 FST Configuration 150
- CONFIGURATION FORMAT: DTC ( 151
- CONFIGURATION EXAMPLE: 151
- END END 152
- 4Ć71FST Configuration 153
- FDFW FDFW 155
- FDFWM FDFWM 158
- FDFWS FDFWS 160
- 4Ć80 FST Configuration 162
- 4Ć81FST Configuration 163
- 4Ć82 FST Configuration 164
- 4Ć83FST Configuration 165
- 4Ć84 FST Configuration 166
- CONFIGURATION FORMAT: GCI ( 167
- GOTO GOTO 169
- 4Ć89FST Configuration 171
- 4Ć91FST Configuration 173
- 4Ć92 FST Configuration 174
- ICPLDA ICPLDA 175
- ICPLDD ICPLDD 177
- ICPSTA ICPSTA 178
- ICPSTD ICPSTD 180
- CONFIGURATION FORMAT: IFF ( 181
- CONFIGURATION FORMAT: IFT ( 182
- IFTAUT IFTAUT 183
- IFTDDC IFTDDC 184
- IFTMAN IFTMAN 185
- IFTOSP IFTOSP 186
- IFTOSS IFTOSS 187
- IFTRSP IFTRSP 188
- IFTSUP IFTSUP 189
- CONFIGURATION FORMAT: INT ( 190
- Dt) X SVA(in)] 191
- Dt = Sample time in minutes 191
- 4Ć110 FST Configuration 192
- LABEL LABEL 193
- LIMIT LIMIT 194
- NO SYMBOLIC 196
- REPRESENTATION 196
- CONFIGURATION FORMAT: LL ( 196
- CONFIGURATION FORMAT: LN ( 198
- 4Ć117FST Configuration 199
- LOOP LOOP 200
- 4Ć119FST Configuration 201
- 4Ć120 FST Configuration 202
- MASFLW MASFLW 203
- MIDSEL MIDSEL 206
- 4Ć126 FST Configuration 208
- NOP NOP 209
- CONFIGURATION FORMAT: NOT ( 210
- 4Ć129FST Configuration 211
- OVRD OVRD 212
- PDET PDET 214
- 4Ć133FST Configuration 215
- CONFIGURATION FORMAT: PFR 216
- POLY POLY 217
- PVLD PVLD 219
- 4Ć138 FST Configuration 220
- RGLD RGLD 221
- RGLDA RGLDA 222
- RGLDD RGLDD 223
- RGST RGST 224
- RSPST RSPST 225
- %RSPST %RSPST 226
- RTOLD RTOLD 227
- RTOST RTOST 228
- SGSL SGSL 229
- SPLD SPLD 230
- SQRT SQRT 231
- SSLD SSLD 232
- STAT STAT 233
- 4Ć152 FST Configuration 234
- 4Ć153FST Configuration 235
- TIFAUT TIFAUT 236
- TIFDDC TIFDDC 237
- TIFMAN TIFMAN 238
- TIFRSP TIFRSP 239
- TIFSUP TIFSUP 240
- H The reset value goes to 1 241
- CONFIGURATION FORMAT: TM ( 242
- Dt, HA limited to >= 0 242
- Dt = sample time in minutes 242
- CONFIGURATION FORMAT: TRK ( 243
- VLIM VLIM 244
- VOLD VOLD 246
- 4Ć165FST Configuration 247
- 4Ć166 ICP Configuration 248
- 4Ć167ICP Configuration 249
- 4Ć168 ICP Configuration 250
- 4Ć169ICP Configuration 251
- 4.7 Target Data Configuration 252
- Target Data Configuration 253
- H PV - Process Variable 260
- H RA - Ratio Value 260
- H SP - Set Point 260
- H %BI- Percent Bias Value 260
- 5 Configuration Tips 263
- 5.2 Ratio Control 264
- H Loadable Functions 265
- H Scratch Registers 265
- 5.3.1 Loadable Functions 266
- 5Ć5Configuration Tips 267
- AOUT(1) 267
- Configuration Tips 268
- 5.3.2 Scratch Registers 269
- 5.3.3 Split Registers 269
- 5.6 Loop Mode FST Functions 271
- Control Applications 272
- 5Ć11Configuration Tips 273
- 5Ć13Configuration Tips 275
- 5Ć14 Configuration Tips 276
- A.1 Loading Calculations 277
- A.2 Sizing Calculations 280
- Glossary 287
- Reader's Evaluation 317
- 1712 CENTRE CREEK DR 318
- AUSTIN TX 78754-9971 318
Shrnutí obsahu
Configuration Engineering ManualCE4.2:CL6211Original Ć June 1990Configuring CL6010, CL6210,and CL7010ĆSeries Interactiveand Computing ControllersFishe
x Table of ContentsOriginal Ć June 1990CE4.2:CL6211This page intentionally left blank.
4Ć18 DCP ConfigurationOriginal Ć June 1990CE4.2:CL6211DEV Upper Break point Ċ The DEV upper break point specifies thepoint at which the current deviat
4Ć19DCP ConfigurationOriginal Ć June 1990 CE4.2:CL6211between -36.0 and 136.0 percent of the engineering unit span. The limitmay be changed by tuning
4Ć20 DCP ConfigurationOriginal Ć June 1990CE4.2:CL6211at which the notch gain becomes effective. When the current ProcessVariable of the loop is betw
4Ć21DCP ConfigurationOriginal Ć June 1990 CE4.2:CL6211Increase to Close Ċ Establishes the relationship between the outputcurrent and the implied valve
4Ć22 DCP ConfigurationOriginal Ć June 1990CE4.2:CL6211Watchdog Timer Enable Ċ Determines if the Watchdog Timer functionis activated on this Direct Con
4Ć23DCP ConfigurationOriginal Ć June 1990 CE4.2:CL6211BIAS Ċ If the BIAS of the indicated DCP is to appear on the detaildisplay of this DCP, choose YE
4Ć24 FST ConfigurationOriginal Ć June 1990CE4.2:CL62114.4 Function Sequence Table (FST)An FST is the algorithm that runs under each direct control poi
4Ć25FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211Table 4Ć5. Index of FST Instructions by Function TypeGROUP FUNCTION FUNCTION NAME PAGEMATHEMATI
4Ć26 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211GROUP PAGEFUNCTION NAMEFUNCTIONLOOP MODE IFTAUT If True, Set Automatic Mode 4Ć101FUNCTIONS IFTDD
4Ć27FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211GROUP PAGEFUNCTION NAMEFUNCTIONINPUT/OUTPUT AIN Analog Input 4Ć34FUNCTIONS AINEU Analog Input in
1Ć1IntroductionOriginal Ć June 1990CE4.2:CL62111 Introduction1.1 Audience DescriptionThis Configuration Engineering Manual contains the information ne
4Ć28 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211Table 4Ć6. Loadable FunctionsMnemonicDescription Discrete or AnalogPFR Power Fail Restart Discre
4Ć29FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211AAGM AAGM1INSTRUCTION NAME: AAGM (analog adaptive gain modifier)DESCRIPTION: This instruction
4Ć30 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211AAGM AAGM(Continued from previous page)CONFIGURATION FORMAT: AAGM (Analog value >>Eng con
4Ć31FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211AAGM AAGM(Continued from previous page)Where: AGS = adaptive gain signal (operand 1)LBP = lower
4Ć32 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211ABS ABS2INSTRUCTION NAME: ABS (absolute value)DESCRIPTION: This instruction takes the abso
4Ć33FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211ADSVT ADSVT3INSTRUCTION NAME: ADSVT (analog to discrete signal value transfer)DESCRIPTION: Th
4Ć34 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211AIN AIN4INSTRUCTION NAME: AIN (analog input)DESCRIPTION : This instruction sets the SVA outpu
4Ć35FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211AIN AIN(Continued from previous page)FUNCTION EQUATIONS:SVA(out) = Analog input value (in percen
4Ć36 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211AINEU AINEU5INSTRUCTION NAME: AINEU (analog input in engineering units)DESCRIPTION: This inst
4Ć37FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211AINEU AINEU(Continued from previous page)Eng conversion factors - The name of the ICP, D
1Ć2 IntroductionOriginal Ć June 1990CE4.2:CL62111.4 Related DocumentsThe Documentation Map at the front of this manual shows thedocumentation for the
4Ć38 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211AINSQR AINSQR6INSTRUCTION NAME: AINSQR (analog input square root)DESCRIPTION: This instructio
4Ć39FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211AINSQR AINSQR(Continued from previous page)OPERAND DESCRIPTIONS:AIN channel - The channel number
4Ć40 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211AINTC AINTC7INSTRUCTION NAME: AINTCE, AINTCJ, AINTCK, AINTCT
4Ć41FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211AINTC AINTC(Continued from previous page)OPERAND DESCRIPTIONS:AIN channel - The channel number
4Ć42 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211ALMLD ALMLD8INSTRUCTION NAME: ALMLD (alarm monitor load)DESCRIPTION: This instruction sets t
4Ć43FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211ALMLD ALMLD (Continued from previous page)FUNCTION EQUATIONS:If Alarm monitor = 0 (no alarm) Th
4Ć44 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211ALMST ALMST9INSTRUCTION NAME: ALMST (alarm monitor store)DESCRIPTION: This instruction stores
4Ć45FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211AND AND 10INSTRUCTION NAME: AND (logical AND)DESCRIPTION: This instruction takes a logical AN
4Ć46 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211AOUT AOUT11INSTRUCTION NAME: AOUT (analog output)DESCRIPTION : The analog output will be 4 to
4Ć47FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211AOUT AOUT(Continued from previous page) Notes: (1) - Later models of Computing controller
1Ć3IntroductionOriginal Ć June 1990CE4.2:CL6211Abbreviations — The configuration system on-line HELP messagesinclude the definition of abbreviations w
4Ć48 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211BB12INSTRUCTION NAME: B (fixed bias)DESCRIPTION: This instruction adds the fixed bias contain
4Ć49FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211BDET BDET13INSTRUCTION NAME: BDET (bi-directional edge trigger)DESCRIPTION: This instruction
4Ć50 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211CASC CASC14INSTRUCTION NAME: CASC (cascade)DESCRIPTION: This instruction provides cascade con
4Ć51FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211CASC CASC(Continued from previous page)OPERAND DESCRIPTIONS:Loop tag - The tag name of the secon
4Ć52 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211CHS CHS15INSTRUCTION NAME: CHS (change sign)DESCRIPTION: This instruction changes the polarit
4Ć53FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211CNTRL CNTRL16INSTRUCTION NAME: CNTRL (control)DESCRIPTION: This instruction initiates the pri
4Ć54 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211%CNTRL %CNTRL17INSTRUCTION NAME: %CNTRL (percent control)DESCRIPTION: This instruction is sim
4Ć55FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211CTR CTR18INSTRUCTION NAME: CTR (counter / ramp)DESCRIPTION: This instruction counts the logic
4Ć56 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211CTR CTR(Continued from previous page)FUNCTION EQUATIONS:If internal count < counter/ramp valu
4Ć57FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211DAGM DAGM19INSTRUCTION NAME: DAGM (discrete adaptive gain modifier)DESCRIPTION: This instruct
1Ć4 IntroductionOriginal Ć June 1990CE4.2:CL6211This page intentionally left blank.
4Ć58 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211DAGM DAGM(Continued from previous page)OPERAND DESCRIPTIONS:Discrete gain factor - A tuning para
4Ć59FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211DASVT DASVT20INSTRUCTION NAME: DASVT (discrete to analog signal value transfer)DESCRIPTION: T
4Ć60 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211DI DI21INSTRUCTION NAME: DI (discrete input)DESCRIPTION : This instruction sets the SVD outp
4Ć61FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211DI DI(Continued from previous page)FUNCTION EQUATIONS:SVA(out) = SVA(in)If 0 <= Discrete inp
4Ć62 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211DIF DIF22INSTRUCTION NAME: DIF (difference)DESCRIPTION: This instruction subtracts the analog
4Ć63FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211DIV DIV23INSTRUCTION NAME: DIV (divide)DESCRIPTION : This instruction divides the SVA input b
4Ć64 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211DODO24INSTRUCTION NAME: DO (discrete output)DESCRIPTION : This instruction closes a relay con
4Ć65FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211DODO(Continued from previous page)FUNCTION EQUATIONS:SVA(out) = SVA(in)If SVD(in) = logic 0 The
4Ć66 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211DTDT25INSTRUCTION NAME: DT (dead time)DESCRIPTION : This instruction delays the SVA output fo
4Ć67FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211DTDT(Continued from previous page)FUNCTION EQUATIONS:If reset value = 0, Then SVA(out) @ t2 = S
2Ć1Product OverviewOriginal Ć June 1990CE4.2:CL62112 Product Overview2.1 PROVOX System OverviewA PROVOX system consists of a set of individual devices
4Ć68 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211DTC DTC26INSTRUCTION NAME: DTC (dead time compensation)DESCRIPTION: This instruction provides
4Ć69FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211DTC DTC(Continued from previous page)CONFIGURATION FORMAT: DTC (Process gain >>Process ti
4Ć70 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211END END 27INSTRUCTION NAME: ENDDESCRIPTION: This instruction is required as the last function
4Ć71FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211EUP EUP28INSTRUCTION NAME: EUP (engineering units to percent conversion)DESCRIPTION: This in
4Ć72 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211EXP EXP29INSTRUCTION NAME: EXP (exponent) ( Invalid for Computing Controller )
4Ć73FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211FDFW FDFW30INSTRUCTION NAME: FDFW (feedforward)DESCRIPTION: This instruction multiplies the S
4Ć74 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211FDFW FDFW(Continued from previous page)CONFIGURATION FORMAT: FDFW (Multiplier enable >>Mu
4Ć75FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211FDFW FDFW(Continued from previous page)FUNCTION EQUATIONS:If operand 1 = operand 5 = YES, and op
4Ć76 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211FDFWM FDFWM31INSTRUCTION NAME: FDFWM (feedforward multiply only)DESCRIPTION: This instruction
4Ć77FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211FDFWM FDFWM(Continued from previous page)OPERAND DESCRIPTIONS:Multiplier enable - A tuning param
2Ć2 Product OverviewOriginal Ć June 1990CE4.2:CL6211The following paragraphs provide a brief description of each PROVOXdevice that can be connected to
4Ć78 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211FDFWS FDFWS32INSTRUCTION NAME: FDFWS (feedforward sum only)DESCRIPTION: This instruction adds
4Ć79FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211FDFWS FDFWS(Continued from previous page)OPERAND DESCRIPTIONS:Summer enable - A tuning parameter
4Ć80 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211FFR FFR33INSTRUCTION NAME: FFR (flip-flop reset)DESCRIPTION: This instruction sets the SVD ou
4Ć81FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211FFR FFR(Continued from previous page)TRUTH TABLE:SVD(in)0101SVD(out)Reset0011Last SVD(out)100CON
4Ć82 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211FFS FFS34INSTRUCTION NAME: FFS (flip-flop set)DESCRIPTION: This instruction sets the SVD outp
4Ć83FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211FFS FFS(Continued from previous page)TRUTH TABLE:SVD(in)0101SVD(out)Reset0011Last SVD(out)101CON
4Ć84 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211FIL FIL35INSTRUCTION NAME: FIL (first order digital filter)DESCRIPTION : This instruction per
4Ć85FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211GCI GCI36INSTRUCTION NAME: GCI (gas chromatograph interface)DESCRIPTION: This instruction p
4Ć86 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211GCI GCI(Continued from previous page)OPERAND DESCRIPTIONS:Controller time on - This tuning param
4Ć87FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211GOTO GOTO37INSTRUCTION NAME: GOTO (unconditional transfer)DESCRIPTION: This instruction chang
2Ć3Product OverviewOriginal Ć June 1990CE4.2:CL6211Computer / Highway Interface Package Ċ The Computer/HighwayInterface Package (CHIP) provides plant
4Ć88 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211GOTO GOTO(Continued from previous page)If it is necessary to conditionally select the outputs of
4Ć89FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211HLV HLV38INSTRUCTION NAME: HLV (hold last value)DESCRIPTION: This instruction holds the previ
4Ć90 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211HLV HLV(Continued from previous page)FUNCTION EQUATIONS:If discrete value = 1Then SVA(out) = las
4Ć91FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211HS HS39INSTRUCTION NAME: HS (high select)DESCRIPTION: This instruction compares the SVA
4Ć92 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211HSM HSM40INSTRUCTION NAME: HSM (high signal monitor)DESCRIPTION: This instruction compares
4Ć93FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211ICPLDA ICPLDA41INSTRUCTION NAME: ICPLDA (indirect control point load analog)DESCRIPTION: This
4Ć94 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211ICPLDA ICPLDA(Continued from previous page)OPERAND DESCRIPTIONS:ICP tag - The tag of the ICP.ICP
4Ć95FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211ICPLDD ICPLDD42INSTRUCTION NAME: ICPLDD (indirect control point load discrete)DESCRIPTION: Thi
4Ć96 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211ICPSTA ICPSTA43INSTRUCTION NAME: ICPSTA (indirect control point store analog)DESCRIPTION: This
4Ć97FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211ICPSTA ICPSTA(Continued from previous page)OPERAND DESCRIPTIONS:ICP tag - The tag of the ICP.ICP
2Ć4 Product OverviewOriginal Ć June 1990CE4.2:CL62112.3 The Interactive Controller UnitThe Interactive Controller Unit (IAC) is a user-configured, dig
4Ć98 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211ICPSTD ICPSTD 44INSTRUCTION NAME: ICPSTD (indirect control point store discrete)DESCRIPTION: T
4Ć99FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211IFF IFF45INSTRUCTION NAME: IFF (if false transfer)DESCRIPTION: This instruction transfers the
4Ć100 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211IFT IFT46INSTRUCTION NAME: IFT (if true transfer)DESCRIPTION: This instruction is similar to
4Ć101FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211IFTAUT IFTAUT47INSTRUCTION NAME: IFTAUT (if true set automatic mode)DESCRIPTION: This instru
4Ć102 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211IFTDDC IFTDDC48INSTRUCTION NAME: IFTDDC (if true set direct digital control mode)DESCRIPTION:
4Ć103FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211IFTMAN IFTMAN49INSTRUCTION NAME: IFTMAN (if true set manual mode)DESCRIPTION: This instructi
4Ć104 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211IFTOSP IFTOSP50INSTRUCTION NAME: IFTOSP (if true, operator station primary point)DESCRIPTION:
4Ć105FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211IFTOSS IFTOSS51INSTRUCTION NAME: IFTOSS (if true, operator station secondary point)DESCRIPTIO
4Ć106 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211IFTRSP IFTRSP52INSTRUCTION NAME: IFTRSP (if true set remote set point mode)DESCRIPTION: Thi
4Ć107FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211IFTSUP IFTSUP53INSTRUCTION NAME: IFTSUP (if true set supervisory mode)DESCRIPTION: This ins
2Ć5Product OverviewOriginal Ć June 1990CE4.2:CL6211The Type CL6012 Interactive Controller Assembly is a redundant versionof the Type CL6011 Interactiv
4Ć108 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211INT INT54INSTRUCTION NAME: INT (integrator)DESCRIPTION : This instruction takes the time
4Ć109FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211INT INT(Continued from previous page)OPERAND DESCRIPTIONS:Integrator gain - A tuning parameter
4Ć110 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211KK55INSTRUCTION NAME: K (fixed gain)DESCRIPTION: This instruction multiplies the SVA input b
4Ć111FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211LABEL LABEL56INSTRUCTION NAME: LABELDESCRIPTION : This instruction is used to identify where
4Ć112 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211LIMIT LIMIT57INSTRUCTION NAME: LIMIT (limiter)DESCRIPTION : This instruction places upper a
4Ć113FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211LIMIT LIMIT(Continued from previous page)FUNCTION EQUATIONS:If Low limit value <= SVA(in) &l
4Ć114 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211LL LL58INSTRUCTION NAME: LL (lead/lag compensation)DESCRIPTION : This instruction provi
4Ć115FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211LL LL(Continued from previous page)OPERAND DESCRIPTIONS:Lead/lag gain - A tuning parameter that
4Ć116 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211LN LN59INSTRUCTION NAME: LN (natural logarithm) ( Invalid for Computing Controller )DESC
4Ć117FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211LOG LOG60INSTRUCTION NAME: LOG (base 10 logarithm) ( Invalid for Computing Controller )DESCR
PROFLEX and PROVOX are registered trademarks of Fisher Controls International, Inc.ENVOX is a trademark of Fisher Controls International, Inc.E Fisher
2Ć6 Product OverviewOriginal Ć June 1990CE4.2:CL6211This page intentionally left blank.
4Ć118 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211LOOP LOOP61INSTRUCTION NAME: LOOP (beginning of LOOP)DESCRIPTION: This instruction marks the
4Ć119FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211LS LS62INSTRUCTION NAME: LS (low select)DESCRIPTION: This instruction compares the SVA
4Ć120 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211LSM LSM63INSTRUCTION NAME: LSM (low signal monitor)DESCRIPTION: This instruction compares
4Ć121FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211MASFLW MASFLW64INSTRUCTION NAME: MASFLW (mass flow - ideal gas)DESCRIPTION: This instruction
4Ć122 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211MASFLW MASFLW(Continued from previous page)Scalar (k) - This value (k) is calculated from the e
4Ć123FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211MASFLW MASFLW(Continued from previous page)FUNCTION EQUATIONS:SVA(out) = K[SQRT[(((H2-L2)E/100)
4Ć124 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211MIDSEL MIDSEL65INSTRUCTION NAME: MIDSEL (middle selector)DESCRIPTION: This instruction selec
4Ć125FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211MIDSEL MIDSEL(Continued from previous page)OPERAND DESCRIPTIONS:Mid-selector range - This t
4Ć126 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211MUL MUL66INSTRUCTION NAME: MUL (multiply)DESCRIPTION : This instruction multiplies the SVA i
4Ć127FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211NOP NOP67INSTRUCTION NAME: NOP (no operation)DESCRIPTION : This instruction is used as a pl
3Ć1 Theory of Operation: Operating StatesOriginal Ć June 1990 CE4.2:CL6211 3 Theory Of Operation 3.1 Operating States 3.1.1 Database HoldA Regulatory
4Ć128 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211NOT NOT68INSTRUCTION NAME: NOT (logical inverse)DESCRIPTION : This instruction takes the log
4Ć129FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211OR OR69INSTRUCTION NAME: OR (logical OR)DESCRIPTION: This instruction performs a logical OR
4Ć130 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211OVRD OVRD 70INSTRUCTION NAME: OVRD (override)DESCRIPTION: This instruction causes the output
4Ć131FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211OVRD OVRD (Continued from previous page)GRAPHIC REPRESENTATION: SYMBOLIC REPRESENTATION:NO SYM
4Ć132 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211PDET PDET71INSTRUCTION NAME: PDET (positive-directional edge trigger)DESCRIPTION: This instr
4Ć133FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211PEU PEU72INSTRUCTION NAME: PEU (percent to engineering units conversion)DESCRIPTION : This
4Ć134 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211PFR PFR73INSTRUCTION NAME: PFR (power fail restart)DESCRIPTION : This instruction sets the
4Ć135FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211POLY POLY74INSTRUCTION NAME: POLY (polynomial conversions)DESCRIPTION: This instruction perf
4Ć136 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211POLY POLY(Continued from previous page)FUNCTION EQUATIONS:SVA(out) = AX3 + BX2 + CX + DWhere: X
4Ć137FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211PVLD PVLD 75INSTRUCTION NAME: PVLD (process variable load)DESCRIPTION: This instruction sets
3Ć2 Theory of Operation: Operating StatesOriginal Ć June 1990CE4.2:CL6211 3.1.3 OverloadThe Computing and Interactive controllers can reach an overlo
4Ć138 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211PWR PWR76INSTRUCTION NAME: PWR (power) ( Invalid on Computing Controller
4Ć139FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211RGLD RGLD 77INSTRUCTION NAME: RGLD (register load analog and discrete)DESCRIPTION: This inst
4Ć140 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211RGLDA RGLDA78INSTRUCTION NAME: RGLDA (register load analog)DESCRIPTION: This instruction set
4Ć141FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211RGLDD RGLDD79INSTRUCTION NAME: RGLDD (register load discrete)DESCRIPTION: This instruction s
4Ć142 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211RGST RGST80INSTRUCTION NAME: RGST (register store analog and discrete)DESCRIPTION: This inst
4Ć143FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211RSPST RSPST81INSTRUCTION NAME: RSPST (remote set point store)DESCRIPTION: This instruction s
4Ć144 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211%RSPST %RSPST82INSTRUCTION NAME: %RSPST (percent remote set point store)DESCRIPTION: This i
4Ć145FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211RTOLD RTOLD 83INSTRUCTION NAME: RTOLD (ratio load)DESCRIPTION: This instruction sets the SVA
4Ć146 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211RTOST RTOST84INSTRUCTION NAME: RTOST (ratio store)DESCRIPTION: This instruction stores the S
4Ć147FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211SGSL SGSL85INSTRUCTION NAME: SGSL (signal selector)DESCRIPTION: This instruction creates thr
3Ć3 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211 3.2 Point Processing 3.2.1 Data AcquisitionA configured controller performs
4Ć148 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211SPLD SPLD 86INSTRUCTION NAME: SPLD (set point load)DESCRIPTION: This instruction sets the SV
4Ć149FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211SQRT SQRT87INSTRUCTION NAME: SQRT (square root)DESCRIPTION : This instruction takes the squa
4Ć150 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211SSLD SSLD 88INSTRUCTION NAME: SSLD (signal selector status load)DESCRIPTION: This instructio
4Ć151FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211STAT STAT89INSTRUCTION NAME: STAT (station)DESCRIPTION: This instruction designates the loca
4Ć152 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211SUM SUM90INSTRUCTION NAME: SUM (summation)DESCRIPTION: This instruction adds an analog value
4Ć153FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211TFR TFR91INSTRUCTION NAME: TFR (signal transfer)DESCRIPTION: This instruction selects either
4Ć154 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211TIFAUT TIFAUT92INSTRUCTION NAME: TIFAUT (true if automatic mode)DESCRIPTION: This instructio
4Ć155FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211TIFDDC TIFDDC93INSTRUCTION NAME: TIFDDC (true if direct digital control mode)DESCRIPTION: Th
4Ć156 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211TIFMAN TIFMAN94INSTRUCTION NAME: TIFMAN (true if manual mode)DESCRIPTION: This instruction s
4Ć157FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211TIFRSP TIFRSP95INSTRUCTION NAME: TIFRSP (true if remote set point mode)DESCRIPTION: This ins
3Ć4 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211first occurs, the output channels are held at their last output value. Seet
4Ć158 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211TIFSUP TIFSUP96INSTRUCTION NAME: TIFSUP (true if supervisory mode)DESCRIPTION: This instruct
4Ć159FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211TM TM97INSTRUCTION NAME: TM (timer)DESCRIPTION : This instruction provides a time-out interv
4Ć160 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211TM TM(Continued from previous page)CONFIGURATION FORMAT: TM (Timer time >>Reset signal &
4Ć161FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211TRK TRK98INSTRUCTION NAME: TRK (track)DESCRIPTION: This instruction modifies the tracking ch
4Ć162 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211VLIM VLIM99INSTRUCTION NAME: VLIM (velocity limiter)DESCRIPTION: This instruction limits the
4Ć163FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211VLIM VLIM(Continued from previous page)OPERAND DESCRIPTIONS:Velocity limit - This tuning parame
4Ć164 FST ConfigurationOriginal Ć June 1990CE4.2:CL6211VOLD VOLD 100INSTRUCTION NAME: VOLD (valve output load)DESCRIPTION: This instruction sets th
4Ć165FST ConfigurationOriginal Ć June 1990 CE4.2:CL6211XOR XOR101INSTRUCTION NAME: XORDESCRIPTION: This instruction performs a logical exclusiv
4Ć166 ICP ConfigurationOriginal Ć June 1990CE4.2:CL62114.5 IAC/Computing Analog ICP PointThis section of configuration defines an analog Indirect Cont
4Ć167ICP ConfigurationOriginal Ć June 1990 CE4.2:CL6211Type v Ċ The type of the analog ICP may be one of the following:MONITOR, REFERENCE, MONITOR DEV
3Ć5 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211 3.3 Direct Control PointsThe IAC and Computing controllers provide control
4Ć168 ICP ConfigurationOriginal Ć June 1990CE4.2:CL62114.6 IAC/Computing Discrete ICP PointThis section of configuration defines a discrete ICP. A dis
4Ć169ICP ConfigurationOriginal Ć June 1990 CE4.2:CL6211Type v Ċ This field defines the type of each discrete register. Valid typesare MONITOR, REFERE
4Ć170Target Data ConfigurationOriginal Ć June 1990CE4.2:CL62114.7 Target Data Configuration4.7.1 Target Data Configuration ItemsThe TARGET DATA form i
4Ć171Target Data ConfigurationOriginal Ć June 1990 CE4.2:CL6211Current? Ċ This field is set to YES if the device specified by theconfiguration Device
4Ć172Target Data ConfigurationOriginal Ć June 1990CE4.2:CL6211Sample Interval Ċ The sample interval is the rate at which this point willsend its opera
4Ć173Target Data ConfigurationOriginal Ć June 1990 CE4.2:CL6211the rate filter can be enabled. YES enables the rate filter function; NOdisables it.
4Ć174Target Data ConfigurationOriginal Ć June 1990CE4.2:CL6211cleared. The valid deadband range for each available point attribute is listedin Table
4Ć175Target Data ConfigurationOriginal Ć June 1990 CE4.2:CL6211Absolute Pressure Conversion Ċ The value required to convert thegauge pressure to absol
4Ć176Target Data ConfigurationOriginal Ć June 1990CE4.2:CL6211Slope for Density Equation Ċ Represents the slope of the densitycurve. This configurati
4Ć177Target Data ConfigurationOriginal Ć June 1990 CE4.2:CL6211Sample Interval Ċ The sample interval is the rate at which this point willsend its oper
3Ć6 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211the IVP, they do provide the ability to establish a reference point for the
4Ć178Target Data ConfigurationOriginal Ć June 1990CE4.2:CL6211PROVUE Extended Alarms Configuration ItemsThe PROVUE EXTENDED ALARMS form is used to def
4Ć179Target Data ConfigurationOriginal Ć June 1990 CE4.2:CL62114.7.1.3 Trend Target Data Configuration ItemsThe TREND TARGET DATA form is used to defi
4Ć180Target Data ConfigurationOriginal Ć June 1990CE4.2:CL6211This page intentionally left blank.
5Ć1Configuration TipsOriginal Ć June 1990 CE4.2:CL62115 Configuration Tips5.1 Targeting PointsThe ENVOX workstation makes target information part of t
5Ć2 Configuration TipsOriginal Ć June 1990CE4.2:CL6211on a secondary form by a PROVUE" selection under the Extra Data"menu option. There a
5Ć3Configuration TipsOriginal Ć June 1990 CE4.2:CL6211The following FST steps in the ratio controller will read the primaryvariable, apply the ratio,
5Ć4 Configuration TipsOriginal Ć June 1990CE4.2:CL6211H Split Registers5.3.1 Loadable FunctionsLoadable functions may be used to conserve both FST st
5Ć5Configuration TipsOriginal Ć June 1990 CE4.2:CL6211CNTRL,STAT,AOUT(1),
5Ć6 Configuration TipsOriginal Ć June 1990CE4.2:CL6211Note:The loadable function method does not require thegeneral register used with the
5Ć7Configuration TipsOriginal Ć June 1990 CE4.2:CL62115.3.2 Scratch RegistersSetting aside two to three general registers as scratch" registers
3Ć7 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211100%0%Process Variable100%0%Process VariableDirect Action Reverse ActionIVPI
5Ć8 Configuration TipsOriginal Ć June 1990CE4.2:CL6211NoteWhenever performing this type of split functionoperation with registers it is esp
5Ć9Configuration TipsOriginal Ć June 1990 CE4.2:CL62115.5 Zero Dropout on Analog InputsDue to the accuracy limitations of certain field devices it is
5Ć10 Configuration TipsOriginal Ć June 1990CE4.2:CL6211An IF TRUE SET function can be used just after a positive edge trigger(PDET) function so that t
5Ć11Configuration TipsOriginal Ć June 1990 CE4.2:CL62115.7.2 Use Of Filtering In Override Control On Loops WithSignificantly Different Dynamic Charact
5Ć12 Configuration TipsOriginal Ć June 1990CE4.2:CL6211The DCPs FST must be configured to provide the filtering action. Thefollowing FST instructions
5Ć13Configuration TipsOriginal Ć June 1990 CE4.2:CL62115.7.4 Operating Characteristics Of Override Control LoopsThe override control system may exhibi
5Ć14 Configuration TipsOriginal Ć June 1990CE4.2:CL6211This page intentionally left blank.
AĆ1Appendix A: Loading and Sizing CalculationsOriginal Ć June 1990 CE4.2:CL6211A Loading and Sizing CalculationsTo determine whether or not a controll
AĆ2 Appendix A: Loading and Sizing CalculationsOriginal Ć June 1990CE4.2:CL6211Table AĆ1. Maximum Controller Loading ValuesController UnitsSimplex C
AĆ3Appendix A: Loading and Sizing CalculationsOriginal Ć June 1990 CE4.2:CL62117. Add the figures recorded in steps 1 through 6. This sum is the total
3Ć8 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 3.3.1.4 Proportional-Derivative with BiasThe Proportional-Derivative with B
AĆ4 Appendix A: Loading and Sizing CalculationsOriginal Ć June 1990CE4.2:CL62117. For a redundant computing controller, write down 246. For aredundant
AĆ5Appendix A: Loading and Sizing CalculationsOriginal Ć June 1990 CE4.2:CL62116. Multiply the number of FST steps defined in the FST section ofconfig
AĆ6 Appendix A: Loading and Sizing CalculationsOriginal Ć June 1990CE4.2:CL62116. Multiply the number of FST steps defined in the FST section ofconfig
AĆ7Appendix A: Loading and Sizing CalculationsOriginal Ć June 1990 CE4.2:CL6211Table AĆ2. Loading Values for FST Instructions Interactive Controller
AĆ8 Appendix A: Loading and Sizing CalculationsOriginal Ć June 1990CE4.2:CL6211Computing Controller Interactive ControllerFunction Mnemonic Loading Va
AĆ9Appendix A: Loading and Sizing CalculationsOriginal Ć June 1990 CE4.2:CL6211Computing Controller Interactive ControllerFunction Mnemonic Loading Va
AĆ10 Appendix A: Loading and Sizing CalculationsOriginal Ć June 1990CE4.2:CL6211This page intentionally left blank.
GlossaryOriginal Ć June 1990 CE4.2:CL6211GlossaryAAbsolute Alarm An alarm which is triggered when the signal that is being monitoredreaches an absolut
GlossaryOriginal Ć June 1990CE4.2:CL6211Algorithm A set of logical steps to solve a problem or accomplish a task. Acomputer program contains one or mo
GlossaryOriginal Ć June 1990 CE4.2:CL6211Asynchronous Communications Interface Adaptor (ACIA)A circuit component that interfaces between the MPU data
3Ć9 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211The P/PD algorithm will also allow bias and transfer ramping bias to beadded
GlossaryOriginal Ć June 1990CE4.2:CL6211BCD Acronym: BinaryĆCoded DecimalBDAS Acronym: Basic Data Acquisition SystemBias A value added to a controller
GlossaryOriginal Ć June 1990 CE4.2:CL6211CCASC Abbreviation: Cascade ControlCascade ControlA control technique that uses the output of one control loo
GlossaryOriginal Ć June 1990CE4.2:CL6211Controller A device that operates automatically to regulate a controlled variable.Control Loop An arrangement
GlossaryOriginal Ć June 1990 CE4.2:CL6211Data A general term that denotes any information an MPU can process.Database A collection of data stored in a
GlossaryOriginal Ć June 1990CE4.2:CL6211Deviation Usually, the difference between set point and process variable. Moregenerally, any departure from a
GlossaryOriginal Ć June 1990 CE4.2:CL6211Discrete Output (DO)A PROVOX point type. A DO point generates a single discrete value,referred to as the set
GlossaryOriginal Ć June 1990CE4.2:CL6211Engineering Units Low Value (EULV)A floatingĆpoint number that represents the lowest limit of the input rangeo
GlossaryOriginal Ć June 1990 CE4.2:CL6211Extended FunctionsOptional capability that can be enabled for certain point types, increasingthe number of fu
GlossaryOriginal Ć June 1990CE4.2:CL6211Group A PROVOX point type. A group point controls as many as 8 DCD pointsallowing them to work in unison.Group
GlossaryOriginal Ć June 1990 CE4.2:CL6211Integer Any positive or negative natural number, or zero. Also, a PROVOX pointtype. An integer point reads a
iiiDocumentation MapOriginal Ć June 1990 CE4.2:CL6211Interactive and Computing ControllersThis map shows documents for interactive and computing contr
3Ć10 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211Note that like the P/PD with Bias PCA, the set point term of the PIDalgorit
GlossaryOriginal Ć June 1990CE4.2:CL6211Logic Control Point (LCP)A PROVOX point type. An LCP executes a programmed subroutinereferred to as a Functio
GlossaryOriginal Ć June 1990 CE4.2:CL6211Multifunction KeyA keyboard key whose function changes according to the portion ofsoftware executing at the m
GlossaryOriginal Ć June 1990CE4.2:CL6211Octal Involving eight characteristics, conditions, or possibilities. For example,octal numbers have the base (
GlossaryOriginal Ć June 1990 CE4.2:CL6211PCIU Acronym: Programmable Controller Interface UnitPD Acronym: Proportional DerivativePDO Acronym: Parallel
GlossaryOriginal Ć June 1990CE4.2:CL6211Primary Control Algorithm (PCA)The principal control equation of a continuous control loop in a PROVOXcontroll
GlossaryOriginal Ć June 1990 CE4.2:CL6211PROVOX Trademark for Fisher Controls' product line of advanced process controlequipment: distributed mic
GlossaryOriginal Ć June 1990CE4.2:CL6211Remote Set Point Mode (RSP)A loop control mode: the controller algorithm changes the control outputto minimize
GlossaryOriginal Ć June 1990 CE4.2:CL6211Softkey Another name for multifunction key.Software Microprocessor or computer programs and routines that a u
GlossaryOriginal Ć June 1990CE4.2:CL6211Target Device Any system device that receives point information, commonly a displaydevice that shows the infor
GlossaryOriginal Ć June 1990 CE4.2:CL6211Uninterruptible Power Supply (UPS)A backup device for an AC power source. A UPS connects between theAC power
3Ć11 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211 3.3.1.6 Error SquaredThe Error Squared PI/PID PCA provides two or three mo
GlossaryOriginal Ć June 1990CE4.2:CL6211Video Display Unit (VDU)An electronic assembly that displays alphanumeric data and graphicimages on a screen,
IndexOriginal Ć June 1990CE4.2:CL6211AAdaptive Gain PCA 3Ć12 to 3Ć15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IndexOriginal Ć June 1990CE4.2:CL6211Control Sequence PCA 3Ć15 to 3Ć17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IndexOriginal Ć June 1990CE4.2:CL6211IIntegral Tracking 5Ć9 to 5Ć12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IndexOriginal Ć June 1990CE4.2:CL6211Primary Control Algorithms 3Ć5 to 3Ć17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IndexOriginal Ć June 1990CE4.2:CL6211TTarget Data 4Ć170, 5Ć1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IndexOriginal Ć June 1990CE4.2:CL6211This page intentionally left blank.
Reader's Evaluation FormOriginal Ć June 1990 CE4.2:CL6211Reader's EvaluationOur goal is to provide you with documents that excel in meeting
Tape along this edge only. Do Not Staple.NO POSTAGENECESSARYIF MAILEDIN THEUNITED STATESPOSTAGE WILL BE PAID BY ADDRESSEEFoldFIRSTĆCLASS MAIL PERMIT N
CE4.2:CL6211This page intentionally left blank.
3Ć12 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211The control action is based on the following equations:DN(s)Ă +Ă TddPVdt) P
CE4.2:CL6211For information, contact Fisher Controls:Marshalltown, Iowa 50158 USALeicester, England LE3 2WUSao Paulo 05424 BrazilSingapore 9158
3Ć13 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211There are two proportional gains associated with the adaptive gain PCA.The
3Ć14 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211GF=1 GF=1GF>1 GF>11>GF>0 1>GF>00% 100%Analog VariableFigu
3Ć15 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211GF=1GF>11>GF>00% 100%Valve PositionLowerBreakPointUpperBreakPointF
3Ć16 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211The Control Sequence PCA allows the user to customize the PCAcomputation to
3Ć17 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211calculations. (The configuration engineer can take advantage of thisSVD ou
3Ć18 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 3.3.2.1 ModesManual Mode (MAN): In MAN mode, the operation of the PrimaryC
3Ć19 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211Manual to RSP: The present value of all operating data is used at thebeginn
iv Documentation MapOriginal Ć June 1990CE4.2:CL6211Fisher documentation supports each stage of system development.System Development StagesDocument T
3Ć20 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 3.3.3.1.1 Anti-Reset WindupIn a situation where a point has reached an out
3Ć21 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211 3.3.3.1.2 Set Point LimitingThe set point limiting function is used to res
3Ć22 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211After the DCP is in automatic mode, the transfer bias value ramps linearlyt
3Ć23 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211variable has been stored as the point's process variable attribute. T
3Ć24 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 3.3.3.2.3 TrackThe track function modifies the tracking characteristics of
3Ć25 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211The primary loop will perform normal PID control action when thesecondary l
3Ć26 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211Similarly, if an absolute alarm is configured as a low alarm and the valueo
3Ć27 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211100%0%MonitoredAttributeDeviation LimitDeviation LimitDeviation Alarm Clear
3Ć28 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 3.3.3.3.3 Watchdog TimerWatchdog timer allows the direct control point to
3Ć29 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211Restart After a DownloadAfter a download, when restart from last value is s
vTable of ContentsOriginal Ć June 1990CE4.2:CL6211Interactive and Computing ControllerCE4.2:CL6211Configuration Engineering Manual1 Introduction 1Ć1.
3Ć30 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211Figure 3Ć11Ć1. Manual Loader MAN Loop Point Block Diagr amPROCESSVA
3Ć31 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211 Figure 3Ć11Ć2. Manual Loader MAN/DDC Loop Point Block DiagramTRACKVALUERE
3Ć32 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211Figure 3Ć11Ć3. Bias and Gain Loop Point Block DiagramHIGH OR LOW (C)TRIP P
3Ć33 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211Figure 3Ć11Ć4. HighĆLow Signal Selector Block DiagramMODELOGICDEVIATIONALA
3Ć34 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211Figure 3Ć11Ć5. P/PD Auto/Man/RSP Loop Point Block DiagramPROCESS VARIABLEI
3Ć35 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211 Figure 3Ć11Ć6. P/PD Auto/Man/DDC or SUP Loop Point Block DiagramTO DATAHI
3Ć36 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 Figure 3Ć11Ć7. PI/PID/I Auto/Man/RSP Loop Point Block DiagramTOALARM CHIG
3Ć37 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211Figure 3Ć11Ć8. PI/PID/Auto/Man/DDC or SUP Loop Point Block DiagramHIGH OR
3Ć38 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 Figure 3Ć11Ć9. PI/PID/I Auto/Man/RSP Loop Point Block DiagramTOALARM CHIG
3Ć39 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211Figure 3Ć11Ć10. PI/PID/Auto/Man/DDC or SUP Loop Point Block DiagramHIGH OR
vi Table of ContentsOriginal Ć June 1990CE4.2:CL62113.3.1.9.1 FST Configuration using Control Sequence PCA 3Ć16. . . . . . . . . . . . . . . . 3.3.1.9
3Ć40 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 Figure 3Ć11Ć11. PI/PID/I Auto/Man/RSP Loop Point Block DiagramTOALARM CHI
3Ć41 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211Figure 3Ć11Ć12. PI/PID/Auto/Man/DDC or SUP Loop Point Block DiagramHIGH OR
3Ć42 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 Figure 3Ć11Ć13. PI/PID/I Auto/Man/RSP Loop Point Block DiagramTOALARM CHI
3Ć43 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211Figure 3Ć11Ć14. PI/PID/Auto/Man/DDC or SUP Loop Point Block DiagramHIGH OR
3Ć44 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 Figure 3Ć11Ć15. PI/PID/I Auto/Man/RSP Loop Point Block DiagramTOALARM CHI
3Ć45 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211Figure 3Ć11Ć16. PI/PID/Auto/Man/DDC or SUP Loop Point Block DiagramHIGH OR
3Ć46 Theory of Operation: Point ProcessingOriginal Ć June 1990CE4.2:CL6211 Figure 3Ć11Ć17. PI/PID/I Auto/Man/RSP Loop Point Block DiagramTOALARM CHI
3Ć47 Theory of Operation: Point ProcessingOriginal Ć June 1990 CE4.2:CL6211Figure 3Ć11Ć18. PI/PID/Auto/Man/DDC or SUP Loop Point Block DiagramHIGH OR
3Ć48 Theory of Operation: Upload/DownloadOriginal Ć June 1990CE4.2:CL6211 3.4 Upload/DownloadWhen the controller is first powered up it does not cont
3Ć49 Theory of Operation: Upload/DownloadOriginal Ć June 1990 CE4.2:CL6211 3.4.3 Tuning Parameter UploadUploading is the transfer of the controller tu
viiTable of ContentsOriginal Ć June 1990CE4.2:CL62113.6.3.2 Tuning Parameter Handshake 3Ć55. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3Ć50 Theory of Operation: CommunicationsOriginal Ć June 1990CE4.2:CL6211 3.5 CommunicationsThe Regulatory Controllers respond to communication reques
3Ć51 Theory of Operation: CommunicationsOriginal Ć June 1990CE4.2:CL6211 3.5.2 Maintenance Data CommunicationsCertain request messages can be categori
3Ć52 Theory of Operation: CommunicationsOriginal Ć June 1990CE4.2:CL6211Note that certain tasks are periodic (caused by elapsed time intervals),while
3Ć53 Theory of Operation: RedundancyOriginal Ć June 1990 CE4.2:CL6211 3.6 RedundancyInteractive and Computing controllers can be applied in a redundan
3Ć54 Theory of Operation: RedundancyOriginal Ć June 1990CE4.2:CL6211Functionally, this form of redundancy is often referred to as hot backup"or
3Ć55 Theory of Operation: RedundancyOriginal Ć June 1990 CE4.2:CL6211 3.6.3 Redundant Controller Normal Online OperationThe redundant controllers norm
3Ć56 Theory of Operation: RedundancyOriginal Ć June 1990CE4.2:CL6211 3.6.4.1 Active and Standby Controller DeterminationUpon restart after a power fa
3Ć57 Theory of Operation: RedundancyOriginal Ć June 1990 CE4.2:CL6211implemented at the DCU level. The redundant controllers perform simplyas slaves
3Ć58 Theory of Operation: RedundancyOriginal Ć June 1990CE4.2:CL6211 3.6.6 Control Action After Switchover/SwitchbackA switchover (or switchback) dec
3Ć59 Theory of Operation: Self TestOriginal Ć June 1990CE4.2:CL6211 3.7 Controller Self TestThe controllers perform checks on internal operation of va
viii Table of ContentsOriginal Ć June 1990CE4.2:CL62114.7.1.1 UOC Target Data Configuration Items 4Ć172. . . . . . . . . . . . . . . . . . . . . . . .
3Ć60 Theory of Operation: Self TestOriginal Ć June 1990CE4.2:CL6211 3.7.4 Discrete Input Output Self TestThe discrete input output self test simply p
3Ć61 Theory of Operation: Self TestOriginal Ć June 1990CE4.2:CL6211 3.7.8 Recommended Minimum Free Time ValueThe user should take precautions to assur
3Ć62 Theory of Operation: Self TestOriginal Ć June 1990CE4.2:CL6211This page intentionally left blank.
4Ć1Configuration OverviewOriginal Ć June 1990 CE4.2:CL62114 ConfigurationThis section covers the detailed configuration of IAC and ComputingController
4Ć2 Configuration OverviewOriginal Ć June 1990CE4.2:CL6211files. Each form includes one or more prompts with blank fields in whichthe information for
4Ć3Configuration OverviewOriginal Ć June 1990 CE4.2:CL6211X00265:CL6211-0ENVOX TOP LEVELFORM[Add]- ENVOX Form[MENU] - Menu Choice Paths to FormsFORM
4Ć4 Configuration OverviewOriginal Ć June 1990CE4.2:CL62114.1.1.2 Generating Configuration DataConfiguration generation checks the consistency of the
4Ć5Configuration OverviewOriginal Ć June 1990 CE4.2:CL62114.1.3 Organization of Configuration InformationThe point configuration items are grouped by
4Ć6 Device Definition ConfigurationOriginal Ć June 1990CE4.2:CL62114.2 Device DefinitionIAC and Computing Controller device definition consists of com
4Ć7Device Definition ConfigurationOriginal Ć June 1990 CE4.2:CL6211Strategy Ċ The strategy field is a 12 character text field that can be usedto help
ixTable of ContentsOriginal Ć June 1990CE4.2:CL6211Figures2Ć1 Typical Data Highway Installation with a Secondary Highway 2Ć1. . . . . . . . . . . . .
4Ć8 Device Definition ConfigurationOriginal Ć June 1990CE4.2:CL62114.2.2 Aux EU DefinitionThis portion of configuration defines engineering unit end p
4Ć9Device Definition ConfigurationOriginal Ć June 1990 CE4.2:CL6211Valid port numbers for each controller type are listed in Table 4Ć2.Table 4Ć2. Val
4Ć10 Device Definition ConfigurationOriginal Ć June 1990CE4.2:CL6211Secondary DCP v Ċ This is the tag of the DCP to be communicated tothe operator sta
4Ć11DCP ConfigurationOriginal Ć June 1990 CE4.2:CL62114.3 Direct Control Point ConfigurationThe Interactive and Computing Controllers provide control
4Ć12 DCP ConfigurationOriginal Ć June 1990CE4.2:CL6211Low Scale Value Ċ The low scale value represents the 0-percent valueof the process variable, in
4Ć13DCP ConfigurationOriginal Ć June 1990 CE4.2:CL6211Station Type Ċ The station type of a point primarily determines whocontrols the set point and wh
4Ć14 DCP ConfigurationOriginal Ć June 1990CE4.2:CL6211ARW Low Limit Ċ The Anti-Reset Windup (ARW) low limit sets the lowlimit for the anti-reset windu
4Ć15DCP ConfigurationOriginal Ć June 1990 CE4.2:CL6211Gain Ċ The proportional gain for BIAS AND GAIN, P_PD WITH BIAS,and PI/PID/I Direct Control point
4Ć16 DCP ConfigurationOriginal Ć June 1990CE4.2:CL6211Restart from Last SP Ċ This configuration item allows the use of theRestart SP value after a pow
4Ć17DCP ConfigurationOriginal Ć June 1990 CE4.2:CL6211SP Velocity Limit Enable Ċ When this configuration item is answeredYES, the internal SP value
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