Form 3053 • Price $32.00 Edition 5 • © Dec. 1996 ONE AND TWO PEN CIRCLE CHART RECORDING PROFILE CONTROLLER MRC 7000 Installation, Wiring, Operation Manual The Partlow Corporation • Two Campion Rd.
I nformation in this installation, wiring, and operation manual is subject to change without notice. One manual is provided with each instrument at the time of shipment. Extra copies are available at the price published on the front cover. Copyright © December 1996, The Partlow Corporation, all rights reserved.
TABLE OF CONTENTS SECTION 1 - GENERAL 1.1 Product Description PAGE NUMBER 5 SECTION 2 - INSTALLATION & WIRING 2.1 2.2 2.3 2.4 2.5 2.6 Installation & Wiring Unpacking Location Mounting Preparation for Wiring Wiring Connections 8 8 8 8 9 14 SECTION 3 - CONFIGURATION 3.1 3.2 3.3 3.4 3.5 Configuration (Set Up) Configuration/Jumper Positioning Operation Summary Start Up Procedures Front Panel Operation 21 22 22 22 23 SECTION 4 - OPERATION 4.1 Off Control Mode 4.2 Alarm Operation 4.
FIGURES & TABLES Figure 1-1 Figure 1-2 Figure 2-1 Figure 2-2 Figure 2-3 Figure 2-4 Figure 2-5 Figure 2-6 Figure 2-7 Figure 2-8 Figure 2-9 Figure 2-10 Figure 2-11 Figure 2-12A Figure 2-12B Figure 2-13 Figure 2-14 Figure 2-15 Figure 2-16 Figure 3-1 Figure 5-1 Table 3-1 Table 3-2 Table 3-3 Table 3-4 Table 4-1 Table 5-1 Table 5-2 Recorder Description Recorder Display Installation Panel Dimensions Conduit Opening Locations Noise Suppression Noise Suppression Board and Terminal Locations AC Power Input Thermocou
Product Description 1.1 1.1.1 GENERAL The instrument is a microprocessor based circular chart Recording Profile Controller capable of measuring, displaying, recording and controlling a variety of inputs. Applications include temperature, level, pressure, flow and others. The instruments can be specified as either a single or as a dual pen model. The second pen can be selected as a profile control or a single setpoint control.
1.1.2 RECORDING The instrument records the selected process variable on a 10-inch circular chart. One box of standard charts is provided with each recorder. Charts are available in a wide selection of ranges. Chart rotation speed is programmable from 0.1 to 999.9 hours per revolution in 0.1 hour increments. The instrument can be ordered with one or two pens. Pen 1 is red and Pen 2 is green. Pens are the disposable fiber-tip type. 1.1.
1.1.7 DIGITAL COMMUNICATIONS The instrument can be ordered with a Digital Communications option that provides the capability of bi-directional communications with a supervisory computer. A dual pen instrument can have an individual address selected for each pen. Refer to the Communications Protocol Manual (Form 2878) for more details regarding the communications option. This manual is included with the unit when the communications option is specified.
Installation and Wiring 2.1 Read these instructions carefully before proceeding with installation and operation. Electrical code requirements and safety standards should be observed. Installation should be performed by qualified personnel. CAUTION: The Instrument AC power input is specified in the model number and on the wiring label affixed to the the top center of the platen. Verify the AC power input required by the instrument prior to proceeding with installation. Unpacking 2.
FIGURE 2-1 7/8" Dia hole for wiring - 3 locations, EC1, EC2, and EC3 EC3 EC1 13 3 16 (335 mm) EC2 15 1 (384.2 mm) 8 21 2 4 PLACES 3 34 (64 mm) 11 16 (119.1 mm) 4 WIDTH OF COVER 2 19 (65.9 mm) 32 Mounting Bracket (2) 9 32 DIA.(7.1mm) Holes to mount bracket to surface 5 12 8 71 2 320.7 mm) (190.5 mm) Screw that mounts to case 1 13 2 (342.5 mm) 15 ( 354 mm) 13 16 7 32 (5.5 mm) Note: Surface Mount Dimensions Top edge of case Panel cut-out for flush mounting 7 3/4" 196.9mm 2.5" 63.
3. A separate isolation transformer to feed only instrumentation should be considered. The transformer can isolate the instrument from noise found on the AC power input. 4. If the instrument is being installed on existing equipment, the wiring in the area should be checked to insure that good wiring practices have been followed. 2.5.1.2 AC POWER WIRING Earth Ground The instrument includes noise suppression components that require an earth ground connection to function.
FIGURE 2-2 0.
2.5.2 SENSOR PLACEMENT (THERMOCOUPLE OR RTD) Thermocouple lead resistance should not exceed 300 ohms. If this is exceeded, instrument accuracy could be affected. Two wire RTD's should only be used with lead lengths less than 10 feet. If the temperature probe is to be subjected to corrosive or abrasive conditions, it should be protected by the appropriate thermowell. The probe should be positioned to reflect true process temperature: In liquid media - the mose agitated area.
RTD LEAD RESISTANCE RTD lead length can affect instrument accuracy. Size (gauge) and length of the wire used affects lead length resistance. To determine the temperature error resulting from the lead length resistance, use the following equation: Terr = TLe * L where; TABLE 3 3 Wire RTD AWG No. 10 12 14 16 18 20 24 TABLE 4 AWG No. 10 12 14 16 18 20 24 TLe = value from Table 3 if 3 wire or Table 4 is 2 wire. L = length of leadwire in thousands of feet. Error °C +/-0.04 +/-0.07 +/-0.10 +/-0.16 +/-0.
Wiring Connections 2.6 All wiring connections are typically made to the instrument at the time of installation. Connections are made at the terminal boards provided, two 12 gauge wires maximum. Terminal boards are designated TB1 through TB13. See Figure 2-4 for the terminal board locations. The number of terminal boards present on the instrument depend upon the model number/ hardware configuration.
FIGURE 2-5 AC Instrument Power Input Connect the 115 VAC hot and neutral to terminals 1 and 2 respectively of TB1. See Figure 2-4 (page 14) for Terminal Board locations on the instrument. Connect the 230 VAC one leg to each terminal, be sure to check the position of the Voltage Selector switch provided with 230 VAC instruments. The switch position must match the voltage input to the instrument.
FIGURE 2-8 Volt, Millivolt and milliamp Input Make the volt, millivolt and milliamp connections as shown below. Use TB4 for thePen 1 input, and TB5 for the Pen 2 input. Terminal 1 is positive and terminal 2 is negative. The milliamp input requires the installation of an appropriate shunt resistor (ordered separately) between terminals 1 and 2. Be sure that input conditioning jumpers are in the correct positions for the input being connected. See Appendix A-1 (page 67).
FIGURE 2-10 Remote Setpoint Input VDC, mADC (optional for the second pen of a dual pen instrument) If Remote Setpoint option has been specified, make connections as shown. The remote setpoint input may be selected as either 0 to 5 VDC or 1 to 5 VDC input in the Program mode section. Make sure the configuration properly matches the input used. Connect the positive lead to terminal 4, and the negative lead to terminal 3 (Terminal 3 is the ground, terminal 4 is the input, terminal 5 is 5 VDC.
2.6.4 OUTPUT CONNECTIONS Relay output(s), if provided in the instrument, may be assigned to control or alarm output functions for Pen 1 and/or Pen 2 (if present). Current outputs may be assigned to control and process value retransmission output for Pen 1 and/or Pen 2 (if present). The assignment of the output function (s) are/is accomplished in the Program mode. SPST relay and/or SSR driver output(s) is/are designated as Relay A through Relay H. SPST relays begin with Relay A designation, then B, C, etc.
FIGURE 2-13 SSR Driver Output Connections are made to relays H through A as shown. Terminal connections are made using TB9, TB8, etc. depending on the number of SSR Driver outputs specified. + 1 2 3 4 TB6 THRU TB9 - SSR FIGURE 2-14 Current Output Connections are made to current outputs A through D as shown. Each current output is programmable as either 4 to 20 mADC or 0 to 20 mADC. Each output must be assigned to the desired function in the Program mode.
FIGURE 2-15 Transmitter Power Supply Input If the isolated 24 VDC regulated transmitter power supply has been specified, the connections should be made as shown. Connections are made using TB3, terminal 1 is positive and terminal 2 is negative. The power supply is capable of providing the power needed by up to 2 transducers (40 mADC maximum).
Configuration 3.1 After completing installation and wiring of the instrument the configuration (set up) procedures must be performed to prepare the instrument for operation on the intended application. The procedures include selecting specific parameters, entering data and possible jumper positioning. Once properly configured the instrument will retain the user selections in memory so this procedure need not be repeated unless required by changes in the application.
Prior to first time operation of the instrument, the configuration procedures for the Program and Tune modes must be performed as applicable. Calibration and Test modes are not used as part of the instrument configuration or operation. These are used for service and maintenance functions and are discussed in Section 5.4 & 5.5 of this manual (page 56 - 66). Shipped Configuration/Jumper Positioning 3.2 Each instrument is factory shipped ready to accept a thermocouple input on TB 4 and TB 5.
3.4.1 POWER UP PROCEDURE Step 1 Verify that all electrical connections have been properly made before applying power to the instrument. Step 2A - For instruments with software revision R2.99 and below Upon power up, 7XXX will be displayed (X representing digits), then XXXX, then XXXX, identifying the twelve digit model number as defined in the order matrix. Next, the EPROM part number will be indicated P-XX. After the EPROM part number, the software revision level will be displayed in the format rX.
3.5.2 KEYPAD CONTROLS The keys on the keypad functions include: 24 SCROLL: Used to : 1. Display the enabled modes. 2. While in a mode, used to sequence the parameter codes and values. 3. Exit some Test and Calibration functions 4. Work in conjunction with other keys: a. With the UP key to display proportional output % b. With the DOWN Key; 1) On power up to alter model # 2) Enter Cal/Test functions UP: Used to: 1. 2. 3. 4. 5. 6. Exit a mode.
FIGURE 3-1 Pen 1 AUTO/MAN Key SCROLL Key UP Key Pen 2 AUTO/MAN Key DOWN Key LAMP TEST From the Off or Control modes, all display and status LEDs can be illuminated simultaneously by depressing the UP and DOWN keys at the same time. Any defective LEDs will not light. CHANGE CHART (also see Changing Charts, Section 5.2) If the UP and DOWN keys are held depressed for more than 2 seconds but less than 4 seconds, the display will show CChg momentarily.
PROGRAM MODE FLOW CHART Prog A inPS AL2 iCor diSP out1 dPoS o1uL Euu o1LL EuL out2 HyCo o2uL HyAo KEY Actual Display ON OFF On/Off Display Use arrow keys to turn on or off o2LL rSP AL1 rSPu Scroll Key A Numeric Display Use arrow keys to change value Up Arrow Key Down Arrow 26 B
B C rSPL PoL SPuL Cru SPLL CrL AtFr P1EC Prnd P2EC dFF PAEC PFF rLyA Pout rLyb Pou rLyC C D 27
D KEY E rLyd CoAr rLyE Cobr rLyF CoCr rLyg Codr rLyH Ptb CurA PIA Curb rrH CurC PPC Curd Crt E F Actual Display ON OFF On/Off Display Use arrow keys to turn on or off Scroll Key Numeric Display Use arrow keys to change value Up Arrow Key Down Arrow 28
F PAPu Coo Com (Optional) Con CbS CAd1 CAd2 TABLE 3-1 PROGRAM MODE CONFIGURATION PROCEDURE Press the SCROLL key until Prog is displayed. Press the DOWN key to enter the Program mode. Pen 1 will be displayed in the upper display. To enter the Pen 1 parameter, press the DOWN key. To enter the Pen 2 parameter, if provided, press the SCROLL key, then the DOWN key. To enter the unit parameter, press the SCROLL key with either Pen 1 or Pen 2 displayed until unit is displayed, then press the DOWN key.
STEP DESCRIPTION 1 Input Select DISPLAY AVAILABLE CODES SETTINGS inPS 0=J T/C degrees C 1=J T/C degrees F 2=K T/C degrees C 3=K T/C degrees F 4=T T/C degrees C 5=T T/C degrees F 6=R T/C degrees C 7=R T/C degrees F 8=S T/C degrees C 9=S T/C degrees F 10=E T/ C degrees C 11=E T/C degrees F 12=B T/ C degrees C 13=B T/C degrees F 14=N T/ C degrees C 15=N T/C degrees F 16=C T/ C degrees C 17=C T/C degrees F 20=RTD degrees C 21=RTD degrees F 30=0 to 5 VDC 31=1 to 5 VDC 32=0 to 50 mVDC 33=10 to 50 mVDC 34=0 t
DISPLAY AVAILABLE CODES SETTINGS FACTORY SETTING YOUR SETTING STEP DESCRIPTION 9 Alarm 1 the Alarm Point is selected in the Tune mode AL1 0 to 6 0 0 = None 1=Process Alarm-Direct 2=Process Alarm-Reverse 3=Deviation Alarm-Direct 4=Deviation Alarm-Reverse 5=Deviation Band Alarm-Open within band 6=Deviation Band Alarm-Closed within band 10 Alarm 2 AL2 Same selections as Alarm 1 0 11 Display Select diSP 1=Process value only 2=Process value/setpoint 3=Deviation only 4=Deviation and setpoint 5=Se
DISPLAY AVAILABLE CODES SETTINGS FACTORY SETTING STEP DESCRIPTION 24 Display Filter Factor dFF 1 to 20 1 1= no filtering (number of values averaged) 25 Process Filter Factor PFF Same selection as dFF 1 26 Process Value Output Retransmission (If Pout =0 then Pou and PoL will not be displayed) Pout 0=Not selected 1=Selected 0 27 Process Output Upper Value Pou -9999 to 9999 2000 28 Process Output Lower Value PoL -9999 to 9999 0 29 Chart Range Upper Value Cru -9999 to 9999 200 3
DISPLAY AVAILABLE CODES SETTINGS FACTORY SETTING STEP DESCRIPTION 35 Relay B Assignment rLyb Same selection as rLyA 0 36 Relay C Assignment rLyC Same selection as rLyA 0 37 Relay D Assignment rLyd Same selection as rLyA 0 38 Relay E Assignment rLyE Same selection as rLyA 0 39 Relay F Assignment rLyF Same selection as rLyA 0 40 Relay G Assignment rLyg Same selection as rLyA 0 41 Relay H Assignment rLyH Same selection as rLyA 0 42 Current Output A Assignment CurA 0 to
DISPLAY AVAILABLE CODES SETTINGS FACTORY SETTING STEP DESCRIPTION 53 Pen(s) Profile/ (Control) Profiles/(Profile) Configuration (only seen on 2 pen instr.) PPC 1 or 2 1 1=Pen 1 profiles & controls process. Pen 2 (if present) records & controls process. 2=Pen 1 profiles & controls process. Note: Time base between both pens are shared. 54 Chart Rotation Time Crt 0.1 to 999.
TUNE MODE FLOW CHART tunE A SoP rSEt PAL1 ArSt dAL1 rAtE bAL1 Ct1 PAL2 Ct2 dAL2 SEnS bAL2 FoP Pb1 Pb2 A 35
TABLE 3-2 TUNE MODE CONFIGURATION PROCEDURE The Tune mode allows the entry, review or altering of the process control Tune adjustments and alarm setting(s). To enter the Tune mode, press and release the SCROLL key until tunE is displayed, then press the DOWN key. Press the SCROLL key to advance the display through the parameters and their values. Use the UP and DOWN keys to select (adjust) the values.
DISPLAY AVAILABLE CODES SETTINGS FACTORY SETTING STEP DESCRIPTION 12 Rate Derivative (Wll be seen if Pb1 or Pb2 was seen) rAtE 0.0 to 10.0 minutes 0.0 13 Cycle Time Output 1 (Will be seen if out1=3,4,7) Ct1 1 to 240 seconds 30 14 Cycle Time Output 2 (Will be seen if out2=3,4) Ct2 1 to 240 seconds 30 15 Position Proportioning Sensitivity (Will be seen if out1=7 and/or out2=0,7) SEnS 0.0 to 50.0 percent 1.
TABLE 3-3 PROFILE ENTRY MODE CONFIGURATION PROCEDURE Depress and release the SCROLL key until PEnt is displayed. Use the DOWN key to enter the Profile Entry mode. Depress the SCROLL key to scroll through the parameters and their values. Use the UP and DOWN keys to adjust the values. After adjusting a parameter, depress the SCROLL key to proceed to the next parameter. After all selections have been made, to exit the mode, depress the UP key with a parameter in the display (not a setting) to exit the mode.
STEP DESCRIPTION 23 Profile End Control DISPLAY AVAILABLE CODES SETTINGS PEnd FACTORY SETTING -1=Hold at least setpoint 0= Abort- all outputs off or at 0% Event off 1=Transfer to profile 1 2=Transfer to profile 2 3=Transfer to profile 3 4=Transfer to profile 4 5=Transfer to profile 5 6=Transfer to profile 6 7=Transfer to profile 7 8=Transfer to profile 8 YOUR SETTING 0 After selecting the Profile End Control parameter value, press the SCROLL key to advance the display to Pn.
TABLE 3-4 ENABLE MODE CONFIGURATION PROCEDURE To enter the Enable mode, press the UP and DOWN keys while in CtrL or oFF modes. All the display lamps will light. After 2 seconds, the display will show Cchg and the pen(s) will move to and remain at a point above the top graduation on the chart. Continue to press the UP and DOWN keys, after 2 additional seconds, the display will show P dn and the Pen(s) are driven below the bottom graduation on the chart. After 6 more seconds, the display will show EnAb.
ENABLE MODE FLOW CHART EnAb EtSt ON OFF ECAL ON OFF EPro ON OFF Etun ON OFF ESbY ON OFF EPC ON OFF EPE ON OFF Key ESPC ON OFF Actual Display ON OFF On/Off Display Use arrow keys to turn on or off Scroll Key Numeric Display Use arrow keys to change value Up Arrow Key Down Arrow 41
Operation 4.1 4.1.1 OFF MODE In the Off mode, the instrument control and alarm function (s) are turned off. Process Retransmission signal(s) remain active. The chart rotation can be selected in the Program mode to stop or continue to rotate when the instrument is in the Off mode. The pen(s) will remain active. The Off mode can be entered by pressing and releasing the SCROLL key until the display reads oFF, then pressing the DOWN key.
4.1.2.3 PROFILE CONTROL OPERATION To start a profile, press and release the SCROLL key until the number of the profile that is to be started is displayed. With the desired profile number displayed, press either the DOWN or the RUN/HOLD to start the profile. RUN will be displayed for about 2 second to indicate that the profile is starting. The status lamps will indicate which segment is active and if in the ramp or soak portion of the segment. To stop a profile that is running, press the RUN/HOLD key.
TABLE 4-1 PROFILE CONTINUE MODE 44 DISPLAY CODE STEP DESCIPTION 1 Profile Number Pn Press the SCROLL key to see the number of the last active profile. 2 Profile Number Value X If necessary, use the UP or DOWN key to change the profile number to the desired value, then press the SCROLL key. 3 Segment Number Sn Press the SCROLL key to see the number of the last active segment.
To start the profile running, press the RUN/HOLD key while in the Profile Continue mode. The profile selected will start at the point selected. 4.1.2.4 ON-OFF CONTROL On-Off control can only be implemented on controllers provided with SPST relay or SSR driver output(s). On-Off operation can be assigned to either or both output 1 and 2 for each pen. The On-Off control can be selected as direct or reverse acting. Direct action is typically used in cooling applications.
Proportional Output 1 Action P1EC on error condition does not apply to position proportioning control. In an error condition, the unit goes only to 0% output (fully closed). With Position Proportioning control, it may be necessary to adjust the Sensitivity Tune SEnS mode parameter to reduce or eliminate oscillations of the motor around setpoint. If oscillation occurs, increase the SEnS value until the motor stops oscillating.
To return to the Control mode of operation from the Manual mode, press the specified AUTO/ Man key. If the Automatic Transfer feature is selected in the Program mode, the instrument will switch from Manual mode to the Control mode when process value reaches the setpoint value. Alarm Operation 4.2 There are two alarms available per pen. The type of alarm is selected in the Program mode as follows: 1. Process Alarm Direct - the alarm will be On if the process value is greater than the process value selected.
Tune Mode Operation 4.3 Proportional output controllers may require the adjustment (tuning) of the PID and other related parameters. This provides a means for the instrument's control algorithm to be adjusted to meet specific application requirements. 4.3.1 SYSTEMATIC TUNING METHOD 1. Changes in tuning parameters should be made one at a time. 2. After making any changes in tuning parameters, a disturbance should be introduced into the process so that the process reaction may be observed.
To aid in determining the process oscillation, the instrument configuration parameters can be adjusted. By reducing the chart upper value Cru and increasing the chart lower value CrL, the resolution of the oscillation can e better observed. Also the chart rotation time Crt can be reduced to improve the observation of the oscillation cycle time. Determining Ultimate Proportional Band and Ultimate Time Period 1. Set Manual Reset rSet to 0.0, set ArSt to 0.0 and set rAtE to 0.0. 2.
Service 5.1 This section contains information regarding calibration and test procedures that can be performed in the field as well as items concerning the normal maintenance of the instrument. Changing Charts 5.2 Chart changes may be done while in the normal operating mode. CAUTION: The chart flange assembly pin is sharp to perforate the chart. Use caution while installing the chart to avoid coming into contact with the pin. 1. Depress and hold the UP and DOWN keys for between 2 and 3 seconds.
Calibration 5.4 CAUTION: Do not attempt any calibrations without the proper test equipment that meets or exceeds the specifications listed. Press and release the SCROLL key until CAL appears on the display , then press the DOWN key to enter the mode. The display will change to CAL1. Press the SCROLL key to advance the display to the other calibration modes available. For two pen units, CAL2 and CAL3 will only need to be required on TB4 to calibrate Pen 1 and Pen 2 inputs.
TABLE 5-1 CALIBRATION PROCEDURES Calibration Procedure CAL 1 Description Reinitialization of program and tuning values. All parameters are reset to factory set default values. CAL 2 Main calibration necessary for all input types. CAL 3 Cold Junction Compensation calibration used to correct for component variation in the CJC circuit. Necessary for thermocouple inputs. CAL 4 Cold Junction Utility, displays temperature the cold junction compensator is sensing. No adjustment is made with this procedure.
Error recovery: See section 5.6 (page 60) for details. Ensure that the millivolt source is connected correctly and functioning properly. The calibration can be exited when hLd1 or the calibration reference number is displayed by pressing the SCROLL key. CAL2 QUICK CALIBRATION This routine will allow the operator to execute a rough calibration on their unit via the keypad with no other equipment or disturbance to established wiring.
5.4.5 CAL 5 RTD INPUT This procedure determines and saves calibration values relating to RTD inputs. This calibration must be preceded by CAL 2 to properly calibrate the instrument. Both RTD inputs must be calibrated and both inputs must have valid inputs during the calibration. Decade boxes with .01% resolution or equivalent are required. Make sure that the Processor board jumpers JU4, JU6 and JU5, JU7 are in the proper positions. See Appendix A-1 (page 67).
5.4.8 CAL 9 PEN CALIBRATION This procedure is used to calibrate the pen(s). No special test equipment required. Valid inputs must be connected to TB 4 and TB 5 before performing this calibration. With CAL 9 displayed, push and hold the DOWN key, then press the SCROLL key . Release both keys and the display will indicate PEn1. For 2 Pen instruments, press the DOWN key to toggle the display between pen 1 and pen 2. With desired pen displayed, press the SCROLL key. FOR INSTRUMENTS WITH SOFTWARE REVISION R2.
Test Mode 5.5 To enter the Test mode, press and release the SCROLL key until tESt appears on the display then press the DOWN key. tSt1 will be displayed, press and release the SCROLL key to advance the display to the desired test. Tests 1, 2 and 3 are performed as a unit so the display will advance directly to tSt4 from tSt1. Listed in Table 5-2, page 57, are the test procedures available. Test 1, 2 and 3 are performed on start up, periodically during operation, and on entry into the Test mode.
TABLE 5-2 TEST PROCEDURES AND DESCRIPTION Test Test 1 Description Microprocessor internal RAM test. Used to check the processor RAM to make sure it is functioning correctly. Test 2 External RAM test, used to test the RAM chip for proper function. Test 3 EPROM checksum test, used to check that the EPROM program is correct. Test 4 External RAM checksum test; instrument test and identifies how many times Errors16 or 17 have occurred.
5.5.5 TEST 5 KEYPAD/DISPLAY TEST This test allows the operator to verify that the keys work and that all display elements can be lighted. No special test equipment is required. With tSt5 displayed, press and hold the DOWN key, then press the SCROLL key and then release both keys. The display will go blank.
The current output reading should be ± 0.1 mADC at any output value. A ± 5 % of span adjustment for the current output(s) is provided by using the potentiometer adjacent to the current output on the Current Output board. See Appendix A-4 (page 70). To exit the test, press the SCROLL key and tSt7 will be displayed. The existence of a mADC current output is dependent upon the hardware configuration. 5.5.
Trouble-shooting and Diagnostics 5.6 The Trouble-shooting Guidelines Section consists of two columns. The first column is a list of some possible instrument conditions. The second column is a list of steps that should improve the condition. The steps should be performed in order until the condition improves or all the steps have been completed. If the instrument condition has not improved, contact the nearest representative or the factory for assistance.
Model Number Displayed during power up is incorrect 1. Turn off the instrument power, wait 5 seconds then re-apply the power. Verify that the number displayed during the power up sequence is the same as indicated on the label affixed to the platen. If the number displayed is incorrect, perform the following steps: a. Turn off the power to the instrument. Press and hold the UP and DOWN keys.
5. If the output appears not to turn off, remove the power to the instrument. Open the cover and loosen the platen hold down screw. Swing the platen open. Clip the resistor located on the Relay Board adjacent to the output(s) that seem to stay on (See Appendix A-2, page 68). A .01 microfarrad, 1 KV capacitor should be connected from the terminal listed below, for the output where the resistor indicated was removed, to the AC ground.
4. For software revision R2.99 and below, perform Test 9 as described in the Test Section of the manual (page 59). If the pen feedback voltage does not vary, check the pen Potentiometer Segment board for proper ribbon cable connection to the Processor board (Appendix A-1, page 67) and that the pen position fingers are making contact with Potentiometer Segment board. 5. For software revision R2.99 and below, inspect to see that the Potentiometer Segment of the pen feed back is clean.
3. If this error appears, check the Program mode parameter dPos, if not 0, change to 0 and see if the error clears. 64 Er 1 - Microprocessor RAM Failure 1. Turn off the power to the instrument. Wait 5 seconds, and turn the power on. 2. Turn off the power to the instrument. Open the cover, and loosen the platen hold down screw. Swing open the platen and inspect that the microprocessor chip is properly seated in the socket located on the Processor board (Appendix A-1, page 67).
Er 9 - ADC Reference Number Error 1. Perform the CAL2 procedure as described in the Calibration section (page 52). Er10 - ADC Reference Voltage Error 1. Perform the CAL2 procedure as described in the Calibration section (page 52). Er11 - Cold Junction Compensation Error 1. Perform the CAL3 procedure as described in the Calibration section (page 53). Er12 - CAL2 Voltage Error 1.
Er19 - Tried to run profile with 0 segments 1. Press the RUN/HOLD key, then press and release the SCROLL key until oFF or CtrL are displayed, then press the DOWN key. This error occurs if a profile number is selected in the Profile Continue mode for a profile that has not been developed. Er20 - Setpoint Error 1. Press the UP or DOWN key to change the setpoint to a different value, then restore the needed setpoint. 2. Perfrom the CAL1 procedure as described in the Calibration section (page 52).
Appendix A Board Layouts FIGURE A-1 - PROCESSOR BOARD Top SWI for Rev. Y and above UNLOCKED 230 JU1 ENABLE MODE SWI for Rev.
FIGURE A-2 - SPST RELAY/SSR DRIVER OUTPUT BOARD TB6 TS1 R1 TB7 TS2 R2 TS3 R3 TB8 TS4 R4 TS5 R5 TS6 R6 C1 C2 C3 C4 C5 C6 K1 K2 K3 K4 K5 K6 (rlyA) (rlyB) (rlyC) (rlyD) (rlyE) (rlyF) P7 TB9 (rlyG) If the relay is connected to a high impedance AC device, the snubber network used to protect the relay contact may cause the output to appear to be activated when the relay is off. To cure the problem, cut the snubber resistor for the output that is being affected.
FIGURE A-3 - SPDT RELAY/SSR DRIVER OUTPUT BOARD TB6 TS1 R1 TB7 TS2 C1 R2 C2 TS3 TB8 TS4 R3 C3 C4 K1 K2 (rlyA) (rlyB) R4 TS5 R5 TS6 R6 C5 C6 K3 K4 (rlyC) (rlyD) P7 TB9 (rlyG) If the relay is connected to a high impedance AC device, the snubber network used to protect the relay contact may cause the output to appear to be activated when the relay is off. To cure the problem, cut the snubber resistor for the output that is being affected.
FIGURE A-4 - CURRENT OUTPUT BOARD R50 R51 R52 R53 U2 U4 U6 U8 U3 U5 U7 U9 U1 TB10 TB11 TB12 TB13 If this option board was ordered, you will find it located in the lower right hand corner of the instrument.
Appendix B Glossary Assured Soak The instrument may be programmed to interrupt the Profile Soak segment if the process value exceeds a selectable deviation from setpoint value. The Profile will restart from where it was stopped when the process value does not exceed the deviation value selected from setpoint. Automatic Reset (Integral) This parameter is used so that the instrument will compensate for process variable deviations from setpoint that occur when the process load characteristics change.
Input Correction This parameter is adjustable from -300 to 300 units and is used as a method to compensate for a linear sensor error. Factory default is 0=no correction. Display code iCi1 and iCi2. Manual Reset This parameter is adjustable from -1500 to 1500 units representing a manual shift of proportional band(s) relative to the normal position which is an even strattle of the setpoint.
Rate (Derivative) This parameter is adjustable from 0.0 to 10.0 minutes and specifies how the control action responds to the rate of change in the process variable. For example, if the process variable is rising rapidly to setpoint, power is turned off sooner than it would be if the rise were slow. In effect, derivative action anticipates lags within the system and shifts the proportioning band by an amount determined by the rate of change of the input sensor.
Appendix C Order Matrix 7 Pen 1 Option Suffix 3 Recording Profile Controller 00 None N3 - NEMA3† Pen 2 0 None 1 Recorder Only 2 Recorder Controller Voltage *Relay (SPST) Outputs CSA Approved 4 115VAC Input 5 115/230VAC Input 0 1 2 4 6 7 8 9 None One Two Four Six One SPDT Two SPDT Two SPDT and Two SPST *SSR Driver Outputs 0 1 2 4 6 8 None One Two Four Six Eight 4 to 20mA Outputs 0 1 2 3 4 None One Two Three Four 1 115VAC Input 2 115/230VAC Input Enclosure Options 2 Standard Cover (Plastic Wind
Appendix D Product Specifications Measurement Error Limit • Type J,K,T,E,N,C T/C’s and RTD +/-0.25% of reading plus 1 degree @ 25 degrees C • Type R,S, B T/C’s +/-0.25% of span @ 25 degrees C • mA, mV and VDC +/-0.25% of scaled span plus 1 Whole Digit @ 25 degrees C Ambient Temperature Error 0.01% of span per degree C deviation from 25 degrees C Scan Rate 1 scan/second Display Decimal Positions One, two or three decimal places (0.
Input Specifications THERMOCOUPLE TYPE RANGE TYPE RANGE J 0 to 760C 0 to 1400F E 0 to 750C 0 to 1400F K 0 to 1360C 0 to 2500F B 200 to 1800C 400 to 3300F T -220 to 400C -330 to 750F N 0 to 1300C 0 to 2370F R 200 to 1650C 400 to 3000F C 200 to 2300C 390 to 4170F S 200 to 1650C 400 to 3000F MILLIAMPS MILLIVOLTS RTD 4-20 mADC (with resistor) 0 TO 25 mV 0 to 50 mV 10 to 50 mV 100 OHM (.
ALARM ADJUSTMENTS Process Alarm Deviation Alarm Deviation Band Alarm Hysteresis -9999 to 9999 units -3000 to 3000 units 1 to 3000 units 0 to 300 units CONTROL OUTPUTS Relay SPST SSR Driver mADC Current 115 VAC: 5.0A Resistive, 1/8HP or 250VA 230 VAC: 2.
Appendix E Software Reference/Record Sheet Pen 1 inPS iCor out1 o1uL o1LL out2 o2uL o2LL AL1 AL2 diSP dPoS Euu EuL HyCo HyAo rSP rSPu rSPL SPuL SPLL AtFr Prnd dFF PFF Pout Pou PoL Cru CrL P1EC P2EC PAEC 78 PROGRAM MODE Pen 2 rLyA rLyb rLyC rLyd rLyE rLyF rLyg rLyh CurA Curb CurC Curd CoAr Cobr CoCr Codr Ptb PiA rrh PPC Crt PAPu Coo CCon CbS CAd1 CAd2 unit TUNE MODE Pen 1 Pen 2 SoP PAL1 dAL1 bAL1 PAL2 dAL2 bAL2 Pb1 Pb2 rSEt ArSt rAtE Ct1 Ct2 SEnS FoP ENABLE MODE EtSt ECAL EPro Etun ESby EPC EPE ESP
P1 S1 rt SP1 SP2 E1 E2 E3 E4 E5 E6 St E1 E2 E3 E4 E5 E6 PLCt= P3 S1 rt SP1 SP2 E1 E2 E3 E4 E5 E6 St E1 E2 E3 E4 E5 E6 PLCt= S2 S3 dhru= S2 dhru= S4 dhrd= S3 S4 dhrd= S5 S6 Pend= S5 Pend= S6 P2 S1 rt SP1 SP2 E1 E2 E3 E4 E5 E6 St E1 E2 E3 E4 E5 E6 PLCt= P4 S1 rt SP1 SP2 E1 E2 E3 E4 E5 E6 St E1 E2 E3 E4 E5 E6 PLCt= S2 S3 dhru= S2 dhru= S4 dhrd= S3 S4 dhrd= S5 S6 Pend= S5 S6 Pend= 79
P1 S1 rt SP1 SP2 E1 E2 E3 E4 E5 E6 St E1 E2 E3 E4 E5 E6 PLCt= P3 S1 rt SP1 SP2 E1 E2 E3 E4 E5 E6 St E1 E2 E3 E4 E5 E6 PLCt= 80 S2 S3 dhru= S2 dhru= S4 dhrd= S3 S4 dhrd= S5 S6 Pend= S5 Pend= S6 P2 S1 rt SP1 SP2 E1 E2 E3 E4 E5 E6 St E1 E2 E3 E4 E5 E6 PLCt= P4 S1 rt SP1 SP2 E1 E2 E3 E4 E5 E6 St E1 E2 E3 E4 E5 E6 PLCt= S2 S3 dhru= S2 dhru= S4 dhrd= S3 S4 dhrd= S5 S6 Pend= S5 Pend= S6
Appendix F Profile Development Sheet The Profile Development Worksheet is intended to assist the Profile Recorder Controller customers. By filling in the worksheet with the application requirements, profile information can easily be obtained for entry into the instrument. The worksheet is a convenient record of the profile for future use. A profile is a programmed sequence of setpoint changes over a period of time (Ramp) and setpoint maintained at a single point for a period of time (Soak).
PROFILE WORKSHEET Profile Number Number of Segments 1 Segments 2 4 5 6 SP1 SP2 SP1 SP2 SP1 SP2 SP1 SP2 SP1 SP2 SP1 SP2 Ramp Time Soak Time Ramp Time Soak Time Ramp Time Soak Time Ramp Time Soak Time Ramp Time Soak Time Ramp Time Soak Time Setpoint Scale Event 1 Event 2 Event 3 Event 4 Event 5 Event 6 Profile End Action Profile Loop Count Deviation Hold After Ramp Up Deviation Hold After Ramp Down Profile Time Base Profile Interrupt Action 82 3
SAMPLE PROFILE The following is a sample profile intended to assist in understanding how the profile recorder functions. Be sure to disconnect all control outputs before running this profile. This profile does not make use of the second pen on a dual pen instrument to help keep the profile short. Press and release the SCROLL key until Prog appears on the display then press the DOWN key. Press and release the DOWN key until diSp appears then press the SCROLL key.
Warranty and Return Statement These products are sold by The Partlow Corporation (Partlow) under the warranties set forth in the following paragraphs. Such warranties are extended only with respect to a purchase of these products, as new merchandise, directly from Partlow or from a Partlow distributor, representative or reseller, and are extended only to the first buyer thereof who purchases them other than for the purpose of resale.