Honeywell UDC3200 manual Input #1, Rtd

Page 20

Input #1

	Thermocouple	RTD	Millivolt or Volts
			except 0-10 Volts

Use Thermocouple extension wire only

25	R
3
26	+
27	–

25 R

26 + 27 –

25 R

mV or	+	26 +
Volt
source	–	27 –

0-10 Volts

Milliamps

Thermocouple Differential

0–10 Volt source

+

1

–

100K 1

2

100K 3

25 R

26 + 27 –

– 25 R

Xmitter		1
+				26	+
	250		Ω

	Power			27 –
	+ –
	Supply

	Use Thermocouple
	extension wire only		25	R
	+		25	R
	+
	–	4	26	+
	–	2
	–	2	27	–
	–		27	–
	+

1The 250 ohm resistor for milliamp inputs or the voltage divider for 0-10 Volt inputs are supplied with the controller when those inputs are specified. These items must be installed prior to start up when the controller is wired. For 0-20 mA applications, the resistor should be located at the transmitter terminals if Burnout detection is desired.

2Splice and tape this junction between the two thermocouples. This junction may be located anywhere between the thermocouples and the instrument terminals, it does not need to be close to the other thermocouple junctions. Both thermocouples must be of the same type. For best accuracy, the two thermocouples should be matched or, preferably, made from the same batch of wire.

3This controller does not produce a steady current for burnout detection. For that reason, when a thermocouple is used in parallel with another instrument, it may be desirable to configure the burnout selection for this controller to “NOFS” and use the burnout current from the other instrument to also drive this controller.

4The millivolt values for the Thermocouple Differential Input are for a pair of J thermocouples at an ambient temperature mean of 450°F / 232°C.

Figure 2-6 Input 1 Connections

14

UDC3200 Universal Digital Controller Operator Manual

04/08

Image 20

Contents UDC3200 Universal Digital Controller Operator Manual WARRANTY/REMEDY ContactsWorld Wide Web TelephoneSymbol Definitions Symbol DefinitionContents TROUBLESHOOTING/SERVICE Page Function of Displays and Keys Operator InterfaceFunction of Displays and Keys CE Conformity Europe Keys and FunctionsUDC3200 Universal Digital Controller Operator Manual Page Pre-installation Information Model Number InterpretationControl and Alarm Relay Contact Information Alarm RelaysAlarm Relay Contact Information Control RelaysPhysical Considerations Overall DimensionsMounting Mounting Method Step ActionWiring Wiring Diagrams Permissible Wiring BundlingBundle No Wire Functions Universal Output Functionality and RestrictionsINU Details Wiring the ControllerCallout Line Neutral Voltage L2/N Earth Ground HotAC/DC Input #1 RTDInput #2 Input 2 ConnectionsTime Simplex Time DuplexL2/N Power Supply PowerPower Load Relay Load 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 ProcedureConfiguration Procedure IntroductionTuning Set Up Group Configuration is Complete RSET2MIN02 to RSET2RPM CYC SEC CYC SX3 CYC2 SEC CYC2 SX3 Security LockoutSP SEL Auto MAN Disable Enable RUN HoldDisable Enable SP Ramp Set Up Group Keyreset EU/HR DNSP Prog Strt SEG END SEGSEG2TIME SEG3RATESEG4 SP SEG4TIME SEG5RATE SEG6 SP SEG6TIMEAT Error Accutune Set Up GroupFuzzy Disable Enable Accutune Tune Algorithm Set Up Group ALG ON-OFFTimer ALG PD+MRStart KEY Alarm LOW Disp TI REM Time Period000 to INP ALG1Summer with Ratio and BIAS-The following formula Input High Select with Ratio and BIAS-This selectionInput LOW Select with Ratio and BIAS- This selection Multiplier Divider with Square Root -The followingFCC Math KCalc HI Calc LOALG1 INB ALG1 INCPCT CO ALG1 BiasOUT RNG Output Set Up GroupOUT ALG Rlystate RLY TypeMotor TI CUR OUTLOW VAL High VALInput 1 Set Up Group IN1 TypeXmitter IN1 LOWRatio Bias IN101 to Burnout NoneEMISSIV1 XMITTER2 Input 2 Set Up GroupIN2 Type IN2 High IN2 LOWBias IN2 Burnout Burnout Protection Sensor BreakEMISSIV2 Control Set Up Group PV Source Input ALG1 PID SetsInput Input Algorithm PID Sets 2PV SWPWR Mode RSP SRC None Input ALG1 AutobiasSP Track PWR OUTAction OUT RatePCT/M UP PCT/M DNFailsafe Mode DeadbandFailmode MAN OUTRPM MinutesOptions Group AUX OUTAuxiliary Output Selection No Auxiliary OutputWas not previously started via DIG INP1No Digital Input Selections To RUN DIG 1COMB DIG INP2DIG2COMB Digital Input 2 Selections Digital Input 2 CombinationsCommunications Group Shed SP UnitsCSP Rato CSP BiasAlarms Set Up Group High Alarm LOW AlarmA1S1 EV Beginning of SegmentA1S2 EV A2S1TYPEA2S1 EV A2S2TYPEALARM12 DiagnostDisplay Set Up Group Page Entering a Security Code Operator InterfaceIndividual key lockout Procedure to Enter a Security CodeKey error ALM 1 OUT 1 DI 1 Or MAN None, F or C Monitoring Your Controller 4.4.1 AnnunciatorsAnnunciators Viewing the operating parameters Lower Display Key Parameter PromptsDescription Diagnostic MessagesDiagnostic Messages Functional Overview Block Diagram of the UDC3200 Controller Accutune Configuration checkTuning indicators Procedure for Starting Tune Tune for Simplex OutputsOperation 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 Error Codes 10 Procedure for Accessing Accutune Error Codes11 Accutune Error Codes Aborting AccutuneHow it works ConfigurationFuzzy Overshoot Suppression Background Tests Background TestsEE Fail INP1 RNGRV Limit SegerrCAL MTR CurfailController Failure Symptoms Other symptomsSales and Service Page Http//hpsweb.honeywell.com