Honeywell UDC3200 manual Summer with Ratio and BIAS-The following formula

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Function

Selections or

 

 

Parameter Definition

Prompt

Range of Setting

 

 

 

 

 

 

Lower Display

Upper Display

 

 

 

 

SUMMER

 

 

SUMMER WITH RATIO AND BIAS—The following formula

 

(See Note 2)

 

 

applies:

 

Alg1=(InpAxRatioA+BiasA)+(InpBxRatioB+BiasB)+(InpCxRatioC+BiasC)+Alg1Bias

 

 

 

 

 

 

HI SEL

 

 

INPUT HIGH SELECT WITH RATIO AND BIAS—This selection

 

(See Note 2)

 

 

specifies the PV or SP as the higher of Input 1 or Input 2. The

 

 

 

 

following formula applies:

 

 

 

 

 

Alg1 = higher of (Input A x Ratio A + Bias A) or (Input B x Ratio B + Bias B)

LO SEL

INPUT LOW SELECT WITH RATIO AND BIAS—This selection

(See Note 2)

specifies the PV or SP as the lower of Input 1 or Input 2. The

 

following formula applies:

 

 

Alg1 = lower of (Input A x Ratio A + Bias A) or (Input B x Ratio B + Bias B)

MuDIV

MULTIPLIER DIVIDER WITH SQUARE ROOT—The following

(See Note 1)

formula applies:

 

 

Alg1=K*SqRt{(InpAxRatioA+BiasA)x(InpCxRatioC+BiasC)/(InpB*RatioB+BiasB)}

x (CalcHi-CalcLo)+Alg1Bias

MULT (See Note 1)

MULTIPLIER WITH SQUARE ROOT—The following formula applies:

Alg1 =K x Sq.Rt.{(InputA x Ratio A + Bias A) x (InputB x Ratio B + Bias B) x (InputC x Ratio C + Bias C)}

x (Calc Hi – Calc Lo) + Alg1Bias

MuDIV (See Note 1)

MULTIPLIER DIVIDER—The following formula applies:

Alg1 = K x [{(Input A x Ratio A + Bias A) x (Input C x Ratio C + Bias C)} / (Input B x Ratio B + Bias B)]

x (Calc Hi – Calc Lo) + Alg1Bias

MULT

(See Note 1)

MULTIPLIER—The following formula applies:

Alg1 = K x [(Input A x Ratio A + Bias A) x (Input C x Ratio C + Bias C) x (Input B x Ratio B + Bias B)]

x (Calc Hi – Calc Lo) + Alg1Bias

CARB A

CARB B

CARB C

CARB D

CARBON POTENTIAL A—Make this selection if you have a Cambridge or Marathon monitor type Zirconium Oxide sensor. See Note 3.

CARBON POTENTIAL B—Make this selection if you have a Corning type Zirconium Oxide sensor. This algorithm requires a temperature range within the region of 1380 to 2000°F. See Note 3.

CARBON POTENTIAL C—Make this selection if you have an A.A.C.C. type Zirconium Oxide sensor. This algorithm requires a temperature range within the region of 1380 °F to 2000 °F. See Note 3.

CARBON POTENTIAL D—Make this selection if you have a Barber Coleman, MacDhui, or Bricesco type Zirconium Oxide sensor. This algorithm requires a temperature range within the region of 1380 to 2000°F. See Note 3.

36

UDC3200 Universal Digital Controller Operator Manual

04/08

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Contents UDC3200 Universal Digital Controller Operator Manual World Wide Web WARRANTY/REMEDYContacts TelephoneSymbol Definitions Symbol DefinitionContents TROUBLESHOOTING/SERVICE Page Operator Interface Function of Displays and KeysFunction of Displays and Keys CE Conformity Europe Keys and FunctionsUDC3200 Universal Digital Controller Operator Manual Page Pre-installation Information Model Number InterpretationAlarm Relay Contact Information Control and Alarm Relay Contact InformationAlarm Relays Control RelaysOverall Dimensions MountingPhysical Considerations Mounting Method Step ActionWiring Bundle No Wire Functions Wiring DiagramsPermissible Wiring Bundling Universal Output Functionality and RestrictionsINU Wiring the Controller CalloutDetails Earth Ground Hot AC/DCLine Neutral Voltage L2/N Input #1 RTDInput #2 Input 2 ConnectionsTime Simplex Time DuplexPower Load Relay Load L2/N PowerSupply Power Relay Load10 Open Collector Output Time Duplex with a Dual Relay Board L2/N Relay LoadUDC3200 Universal Digital Controller Operator Manual 04/08 15 RS-422/485 Communications Option Connections 17 Auxiliary Output and Digital Inputs Option Connections Digital Inputs26 + 12 +Configuration Configuration Prompt HierarchyConfiguration Procedure Configuration ProcedureProcedure IntroductionTuning Set Up Group 02 to Configuration is CompleteRSET2MIN RSET2RPM CYC SEC CYC SX3 CYC2 SEC CYC2 SX3 Security LockoutAuto MAN Disable Enable RUN Hold Disable EnableSP SEL SP Ramp Set Up Group SP Prog KeyresetEU/HR DN Strt SEG END SEGSEG4 SP SEG4TIME SEG2TIMESEG3RATE SEG5RATE SEG6 SP SEG6TIMEAccutune Set Up Group Fuzzy Disable Enable Accutune TuneAT Error Algorithm Set Up Group ALG ON-OFFTimer ALG PD+MR000 to Start KEY Alarm LOW Disp TI REM TimePeriod INP ALG1Input LOW Select with Ratio and BIAS- This selection Summer with Ratio and BIAS-The following formulaInput High Select with Ratio and BIAS-This selection Multiplier Divider with Square Root -The followingCalc HI FCCMath K Calc LOPCT CO ALG1 INBALG1 INC ALG1 BiasOutput Set Up Group OUT ALGOUT RNG Rlystate RLY TypeLOW VAL Motor TICUR OUT High VALInput 1 Set Up Group IN1 TypeRatio XmitterIN1 LOW Bias IN1Burnout None EMISSIV101 to Input 2 Set Up Group IN2 TypeXMITTER2 Bias IN2 IN2 HighIN2 LOW Burnout Burnout Protection Sensor BreakEMISSIV2 Input Input Algorithm Control Set Up GroupPV Source Input ALG1 PID Sets PID Sets 2PV SWSP Track PWR ModeRSP SRC None Input ALG1 Autobias PWR OUTPCT/M UP ActionOUT Rate PCT/M DNFailmode Failsafe ModeDeadband MAN OUTRPM MinutesAuxiliary Output Selection Options GroupAUX OUT No Auxiliary OutputDIG INP1 No Digital Input SelectionsWas not previously started via To RUN DIG2COMB DIG 1COMBDIG INP2 Digital Input 2 Selections Digital Input 2 CombinationsCommunications Group CSP Rato Shed SPUnits CSP BiasAlarms Set Up Group A1S1 EV High AlarmLOW Alarm Beginning of SegmentA2S1 EV A1S2 EVA2S1TYPE A2S2TYPEALARM12 DiagnostDisplay Set Up Group Page Entering a Security Code Operator InterfaceProcedure to Enter a Security Code Key errorIndividual key lockout Monitoring Your Controller 4.4.1 Annunciators AnnunciatorsALM 1 OUT 1 DI 1 Or MAN None, F or C Viewing the operating parameters Lower Display Key Parameter PromptsDiagnostic Messages Diagnostic MessagesDescription Functional Overview Block Diagram of the UDC3200 Controller Configuration check Tuning indicatorsAccutune Operation Procedure for Starting TuneTune for Simplex Outputs Step Operation Press ResultConfiguration Check for Duplex Tune for Duplex Heat/CoolUsing Automatic Tune at start-up for Duplex Heat/Cool Using Blended Tune at start-up for Duplex Heat/Cool Using Manual Tune at start-up for Duplex Heat/CoolStep Operation Press Result 11 Accutune Error Codes Error Codes10 Procedure for Accessing Accutune Error Codes Aborting AccutuneConfiguration Fuzzy Overshoot SuppressionHow it works EE Fail Background TestsBackground Tests INP1 RNGCAL MTR RV LimitSegerr CurfailController Failure Symptoms Other symptomsSales and Service Page Http//hpsweb.honeywell.com