Setup Instruction Manual

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MOD 30ML™ Multiloop Controller Operation

General Operation and Setup using

1800R MOD 30ML™

Identity Module (Version 2)

Summary of content (84 pages)

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MOD 30ML™ Multiloop Controller General Operation and Setup using 1800R MOD 30ML™ Identity Module (Version 2) Operation
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MicroMod Automation, Inc. The Company MicroMod Automation is dedicated to improving customer efficiency by providing the most cost-effective, application-specific process solutions available. We are a highly responsive, application-focused company with years of expertise in control systems design and implementation. We are committed to teamwork, high quality manufacturing, advanced technology and unrivaled service and support.
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MOD 30ML Operation CONTENTS CONTENTS Page SECTION 1 - INTRODUCTION 1.1 FEATURES.......................................................................................................................... 1.2 DESCRIPTION .................................................................................................................... 1.2.1 Functionality......................................................................................................................... 1.2.2 Configuration................
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MOD 30ML Operation CONTENTS CONTENTS (Cont’d) 3.13 3.13.1 3.13.2 3.13.3 3.13.4 3.14 3.14.1 3.14.2 3.14.2 3.15 3.15.1 3.15.2 ALARMS............................................................................................................................... Alarm Trip points .................................................................................................................. Alarm Priority.........................................................................................................
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MOD 30ML Operation CONTENTS ILLUSTRATIONS Figure 2-1 Display Resources ............................................................................................................... 2-2 Display Block (DISP), Edit display, page 1 .......................................................................... 3-1 Controller Front Panel..........................................................................................................
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MOD 30ML Operation CONTENTS iv
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MOD 30ML Operation INTRODUCTION 1 INTRODUCTION 1.
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MOD 30ML Operation INTRODUCTION redundant, removable non-volatile RAM which backs up the configured database and, if left on the instrument during operation, current process data. Nonvolatile RAM memory has a typical data retention of 10 years. 1.2.2 Configuration Configuration of the instrument is accomplished via one of two methods.
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MOD 30ML Operation INTRODUCTION without loop power. The analog output module supplies 4-20mA or 0-20mA. All analog I/O modules are individually, optically isolated to 250Vrms continuous. Digital I/O Digital I/O is selected by the user through use of digital I/O modules. Options include both isolated and non-isolated modules. Solid state relay versions offer high isolation voltage capability.
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MOD 30ML Operation INTRODUCTION 1.4 VERSION IDENTIFICATION To verify the version level of the instrument, check the version number marked on the PROM label of the identity module.
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MOD 30ML Operation SETUP 2 SETUP ! 2.1 CAUTION Be sure the process can be maintained in a safe condition before turning on instrument power. The instrument may not be configured to meet the specific requirements of the process until setup has been performed. GENERAL PREPARATIONS After installation is complete, begin setup by preparing the instrument as follows: 1. Set the SCRV/RUN switch under the front face to the RUN position.
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MOD 30ML Operation SETUP 3. Press the alarm key to get the list of unacknowledged and active acknowledged alarms and diagnostics (Appendix A lists all reportable diagnostics and events). Press the key labeled UAK to acknowlege the alarm (changes to ACT). Press the alarm key again to view the next alarm and repeat until the end where you can return to the device display (see Alarms in Section 3.13). 4.
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MOD 30ML Operation SETUP 2.3.2 UPLOAD From Main Database to Memory Module Follow this procedure to store a database to a memory module. 1. Set Memory Module switches to "read/write" and "module load". 2. Power up the instrument. 3. UPLOAD? is displayed by the instrument. To upload to the memory module, press either the up or down arrows and press the key labeled ENT for enter. The default database is run with instrument state equal to UPLOAD. 4. UPL DONE SET WP? is displayed by the instrument.
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MOD 30ML Operation SETUP Table 1. Device Status Step Step Description Line 1 1 Device Status ∇ moves down to Step 1A NXT goes to Step 2 (Setup) PRV goes to Step 6 (Template) 1A Device Status State Command ∇ ∆ changes state on line 6 ENT enters device state NXT, PRV change step 1B Device Status Shutdown (Entry) ∇ moves down to Step 1B1.
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MOD 30ML Operation SETUP Table 1. Device Status (Cont’d) Step Step Description Line 1 Line 6 Entry Description 1C4 Reset Command ∇ ∆ select YES/NO, ENT enters. NXT, PRV change step Kill Command ∇ ∆ select YES/NO, ENT enters. NXT, PRV change step Delete Main Database Command ∇ ∆ select YES/NO, ENT enters. NXT, PRV change step COMMANDS RESET NO COMMANDS KILL NO 1C7 Restore Main Database Command ∇ ∆ select YES/NO, ENT enters.
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MOD 30ML Operation SETUP Table 1.
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MOD 30ML Operation SETUP Table 2. Device Setup (Cont’d) Step Step Description Line 1 Line 2 2A Setup Built-in Communications ∇ moves down to Step 2A1 if jumper is on ICN or 2A3 if jumper is on RS232, or RS485. NXT, PRV change step SETUP BI COMM 2A1 BI ICN 1 ADDRESS Set ICN Address ∇ ∆ changes number, ENT enters. NXT, PRV change step 2A2 Set ICN Status Active ∇ ∆ selects YES/NO, ENT enters. NXT, PRV change step BI ICN 1 ENABLED BI MSC 1 ADDRESS Set Modbus Address ∇ ∆ changes number, ENT enters.
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MOD 30ML Operation SETUP Table 3. Device I/O Status Step Step Description Line 1 3 Device I/O ∇ moves down to Step 3A NXT goes to Step 4 (Events) PRV goes to Step 2 (Setup) Built in Analog Input 1 AUT, MAN change mode NXT, PRV change step *DEVICE* NOT CFGD I/O or DEV TAG These steps are protected by the CONFIG password. Enter proper password, if used, to move down.
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MOD 30ML Operation SETUP Table 4. Device Events Step Step Description Line 1 4 Device Events (Entry) ∇ moves down to Step 4A NXT goes to Step 5 (About) PRV goes to Step 3 (I/O) Block Event Codes ∆ show block event *DEVICE* NOT CFGD EVENTS or DEV TAG 4A ∇ show event time and type NXT, PRV change step 4B Block Event Codes (Cont’d) ∆ show block event ∇ show event time and type NXT, PRV change step 4X Device Events (Exit) ∆ moves up to Step 4.
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MOD 30ML Operation SETUP 2.5 TEMPLATE SETUP The general procedure for working with a new template configuration is to load defaults, edit system parameters, edit first user compound, insert any new user compounds and then edit them. After configuring compounds for single loop PID or Master Slave Cascade control, you then install the database. * NOTE INSERT places a new compound in the list AFTER the current compound. DELETE deletes the current compound. The System compound cannot be deleted. Table 6.
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MOD 30ML Operation SETUP Table 6. Template Configuration (Cont’d) Step Step Description 6C INSTALL TEMPLATE Install Template ∇ move down to 6C1 NXT, PRV change step INSTALL TYPE NONE Installation of Template ∇ ∆ select YES (press again from NONE returns you to Step 6C) ENT loads template and displays first runtime display. CONFIG REQUEST FAILED Configuration Request Failed ACK acknowledges failure message and changes to Step 6B.
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MOD 30ML Operation SETUP Table 7. System Template Configuration (Cont’d) Step Step Description Line 1 Line 2 7C System Passwords (Entry) ∇ moves down to Step 7C1 NXT, PRV change step Tune Passwords ∇ ∆ changes number, ENT enters NXT, PRV change step Configure Passwords ∇ ∆ changes number, ENT enters NXT, PRV change step Access Timeout ∇ ∆ changes number, ENT enters NXT, PRV change step SYSTEM PASWORDS TUNE PASSWORD CONFIG PASSWORD 0 Enter a number required to access configuration parameters.
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MOD 30ML Operation SETUP Table 7. System Template Configuration (Cont’d) Step Step Description Line 1 Line 2 Line 6 Entry Description 7D10 Low Priority Process Alarm Beep ∇ ∆ change value, ENT enters NXT, PRV change step System (Alarms Exit) ∆ moves up to Step 7D NXT, PRV change step System (System List Exit) ∆ moves up to Step 6B1 NXT, PRV change step LOW PRI BEEP OFF OFF = beeping is disabled ENABLE = beep on alarm 7D11 7E SYSTEM SYSTEM Table 8.
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MOD 30ML Operation SETUP Table 8. User Compound Template Configuration (Cont’d) Step Step Description Line 1 Line 2 Line 6 Entry Description Volt, Milliamp and Millivolt Inputs Only: 8D4 Process Input Low Signal (V, mA) ∇ ∆ change value, ENT enters NXT, PRV change step PROC INP LO SIGNL 0% value in input units. 1.00 Volts 4.00 milliamps 0.00 millivolts 8D5 Process Input High Signal (V, mA) ∇ ∆ change value, ENT enters NXT, PRV change step PROC INP HI SIGNL 100% value in input units. 5.
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MOD 30ML Operation SETUP Table 8.
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MOD 30ML Operation SETUP Table 8. User Compound Template Configuration (Cont’d) Step Step Description Line 1 Line 2 Line 6 Entry Description PROC INP CJC SRC NONE NONE, BI AIN 1, S01 TO S11 PROC INP BURNOUT NONE NONE - no burnout detection DN SCALE - signal moves downscale if burnout is detected. UP SCALE. - signal moves upscale if burnout is detected.
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MOD 30ML Operation SETUP Table 8.
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MOD 30ML Operation SETUP Table 8.
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MOD 30ML Operation SETUP Table 8.
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MOD 30ML Operation SETUP Table 8.
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MOD 30ML Operation SETUP Table 8. User Compound Template Configuration (Cont’d) Step Step Description 8H2 8H2A Deviation Alarms Deviation Alarm 1 Type ∇ ∆ change value, ENT enters NXT goes to 8H2B from NONE or to next step otherwise.
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MOD 30ML Operation SETUP 2-22
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MOD 30ML Multiloop Controller OPERATION 3 OPERATION 3.1 INTRODUCTION * NOTE: The operating information and instructions in this section apply to instruments which have been configured using the template setup procedure described in Section 2. All operator activities related to ongoing operations are performed using a series of runtime displays which are accessible on the instrument front panel. A series of tuning displays can be accessed from the runtime mode.
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MOD 30ML Multiloop Controller OPERATION Alarm Light Alarm Scroll Key Loop Tag Display Tag Key Process Variable Display Manual Key Auto Key Status Displays Remote/Local Key Scroll Key Up Key Down Key Lower Engineering Display Process Variable Bar Graph Set-Point Variable Bar Graph Output Bar graph Figure 3-1.
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MOD 30ML Multiloop Controller OPERATION 3.3 CONTROL KEYS The operator control keys are: 3.4 Alarm: Press to access the alarm displays. Press repeatedly to view a display for each currently active diagnostic and alarm. The left bar displays the process or output value with an intensified segment indicating the trip point for an active alarm. Line 3 displays [UAK] when alarm is unacknowledged, [ACT] when acknowledged but still active, or [CLR] when alarm is acknowledged and not active.
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MOD 30ML Multiloop Controller OPERATION The Line 1, Line 2, and Line 6 displays are composed of eight character locations, each location having fourteen segments. Each location can produce any upper or lower case letter, numerals 0-9, and several symbols and punctuation marks. Lines 3, 4, and 5 are composed of three character locations. Each location has the same characteristics as the locations in 8character lines. 3.4.
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MOD 30ML Multiloop Controller OPERATION 3.4.3 Unacknowledged with Bad Quality: An unacknowledged alarm is present and the alarm input has bad quality. The A key can be used to acknowledge the alarm on the input. Bad quality must be separately acknowledged on a Data Quality Alarm Display. Acknowledged with Bad Quality: An alarm on an input with bad quality has been acknowledged but is still active (alarm condition still exists and bad quality remains unacknowledged).
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MOD 30ML Multiloop Controller OPERATION 3.4.4 Line 5 Displays This is the 3-character status display located next to the scroll key. 3-6 Output: Control output in percent is being displayed on Line 6. Set-Point: The active local set-point value is being displayed on Line 6. Ratio: The ratio function has been enabled for this control loop. The ratio value is being displayed on Line 6. Bias: The bias function has been enabled for this control loop. The bias value is being displayed on Line 6.
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MOD 30ML Multiloop Controller OPERATION 3.4.5 Line 6 Display This is the 8-character display at the bottom of the front panel. Line 6: 3.5 Indicates engineering unit values for output or set-point, as identified by [SP] or [OP] displayed on Line 5. An engineering units label can also be displayed. Also indicates entry point of tune displays and displays parameter data during tuning and template configuration.
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MOD 30ML Multiloop Controller OPERATION 3.7 UP / DOWN KEY OPERATION 3.7.1 Ramping The Up (∆) and Down (∇) keys are used to ramp variables such as local set-point and control output up or down. The ramping function also applies to tuning and setup. Various ramp rates can be obtained by using the ∆/∇ keys alone and in combination with the ‘A' and ‘R/L' keys. The available ramping options are as follows: 3.7.2 Increment Least Significant Digit Press and release the ∆ or ∇ key.
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MOD 30ML Multiloop Controller OPERATION 3.8 SELECTING A CONTROL LOOP FOR DISPLAY The instrument can contain as many as eight control loops. Each loop is identified by a user configured tag name. The data displayed on the front panel applies only to the loop which is identified by the tag name shown on the Line 1 Display. Press the TAG key to switch the display from one loop to another. Pressing the key repeatedly while in any runtime display steps the display through the configured loops.
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MOD 30ML Multiloop Controller OPERATION 3.9.1 Single Loop Automatic Operation with Local Set-Point When a control loop is configured for single loop operation with local set-point, the front panel displays and control key operations resemble the examples below. [AUT] indicates that the controller is in automatic mode. [LOC] indicates local set-point. R/L key is disabled. [SP] indicates that the current set-point value is displayed on Line 6 (bottom line).
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MOD 30ML Multiloop Controller OPERATION 3.9.2 Single Loop Automatic Operation with Remote Set-Point When a control loop is configured for single loop operation with remote set-point, the front panel displays and control key operations resemble the examples below. [AUT] indicates that the controller is in automatic. [LOC] indicates local set-point. The R/L key is used to switch to remote set-point. [SP] indicates that the current local set-point value is displayed on Line 6 (bottom line).
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MOD 30ML Multiloop Controller OPERATION 3.9.3 Single Loop Automatic Operation with Ratio and Bias A set-point bumpless transfer is possible when AUTO RAT (ratio) or AUTO BIA (Bias) is configured. These configurations calculate a ratio or bias value that balances the remote setpoint with the local set-point upon a switch from local to remote set-point.
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MOD 30ML Multiloop Controller OPERATION 3.9.4 Single Loop Automatic Operation with Feedforward Feedforward control is a strategy used to compensate for disturbances in a system before they affect the controlled process variable. A feedforward control system measures a disturbance variable, predicts its effect on the process, and applies corrective action to cancel the effect of the disturbance. A block diagram of this type of system is shown below.
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MOD 30ML Multiloop Controller OPERATION 3.10 SINGLE LOOP AUTO/MANUAL TRANSFER This section describes the operations required in transferring a single control loop between the automatic and manual control modes, and the influence of automatic or manual reset on these operations. Transfer from Manual to Automatic The front panel displays and control key operations for the transfer manual to automatic resemble the example below. Press the A key to transfer from manual to automatic control.
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MOD 30ML Multiloop Controller OPERATION Transfers In A Loop with Automatic Reset When the control algorithm has reset (integral) response, transfers from automatic to manual and from manual to automatic are always bumpless. After switching from manual to automatic, the process variable is under automatic control in response to the active set-point, either local or remote. If the control loop is configured for local set-point tracking, the local set-point tracks the process value when the loop is in manual.
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MOD 30ML Multiloop Controller OPERATION 3.11 SINGLE LOOP OPERATION IN MANUAL This section describes operations when a control loop is in manual. The front panel displays and control key operations resemble the examples below. [MAN] indicates that the control loop is in manual mode. [LOC] indicates local set-point, [RMT] indicates remote set-point. [OP] indicates that the current control output value in percent is displayed on Line 6 (bottom line).
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MOD 30ML Multiloop Controller OPERATION 3.12 CASCADE OPERATION A cascade control system is a multiple-loop system where the primary variable (in the master controller) is controlled by adjusting the set-point of a related secondary variable (in the slave controller). The secondary variable then effects the primary variable through the process. A block diagram of this type of cascade system is shown below.
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MOD 30ML Multiloop Controller OPERATION It may also be desirable for the set-point of the master to track the master process variable. This depends on the desirability of permitting the set-point of the master to vary indirectly in response to changes at the slave controller. 3.12.2 Cascade Operation in Auto Since the control element (valve, air damper, etc.
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MOD 30ML Multiloop Controller OPERATION 3.13 ALARMS Alarm conditions are indicated on the front panel visually by an alarm light and audibly by a beeper. Various combinations of audible and visual alarm indication can be obtained by configuration. Alarm data can be viewed on a dedicated alarm display provided for each active alarm.
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MOD 30ML Multiloop Controller OPERATION 3.13.3 Monitoring and Acknowledging Alarms A dedicated alarm display provides data on each unacknowledged and active alarm.
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MOD 30ML Multiloop Controller OPERATION Input Variable Alarm Display [PV] indicates that this display applies to the process input variable. [HI] indicates that the alarm is activated by increasing input. [UAK] indicates that the alarm is active and has not been acknowledged. Press the ‘A' key to acknowledge the alarm: If alarm is still active [ACT] appears . If alarm is no longer active [CLR] appears, and this display is deleted upon exit.
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MOD 30ML Multiloop Controller OPERATION Set/Process Deviation Alarm Display [DEV] indicates that this display applies to setpoint/process deviation. [HI] indicates that the alarm is activated by increasing deviation. [UAK] indicates that the alarm is active and has not been acknowledged. Press the ‘A' key to acknowledge the alarm. If alarm is still active [ACT] appears . If alarm is no longer active [CLR] appears, and this display is deleted upon exit.
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MOD 30ML Multiloop Controller OPERATION Data Quality and Input Variable Alarm Display [PV] indicates that this display applies to the process variable input. [HI] indicates that the alarm is activated by increasing input. The bar display flashes indicating that in addition to being in an alarm state, the process input quality is bad. Also the numeric display of the input value on Line 6 flashes, alternately displaying the input value and the word [BAD]. Intensified segment indicates alarm trip point.
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MOD 30ML Multiloop Controller OPERATION 3.13.4 Alarm Display Viewing Sequence When the alarm scroll key is pressed to initiate viewing of the alarm displays, the sequence in which the displays appear depends on the instrument state, type of alarm, alarm priority, and whether the alarm has been acknowledged. Instrument In Run State When the state is RUN the viewing sequence is: 1. Unacknowledged diagnostics in the order of their location in the data base. 2.
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MOD 30ML Multiloop Controller OPERATION 3.14 TUNING A series of tuning displays can be accessed directly from the runtime displays. These displays provide for tuning of both alarm and control parameters. Progression through the tuning displays, and tuning of parameter values is done using the front panel keys. Specific parameters available for tuning depend on the configuration of the template identified by the loop tag. Access to tuning adjustments can be password protected. 3.14.
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MOD 30ML Multiloop Controller OPERATION 3.14.2 Alarm Parameters The alarm tuning sequence is accessed from the runtime display. Enter the tuning sequence and make tuning adjustments as follows: 1. Press the Scroll key repeatedly until [TUNE???] appears on Line 6. 2. Press the Down (∇) key. [ALARM] appears on Line 6 and [ENT] flashes next to the Scroll key. 3. Press the Scroll key to start the tuning sequence. • If a tune password is not required, an alarm tuning display appears; go to step 4.
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MOD 30ML Multiloop Controller OPERATION 3.14.3 Control Parameters The control tuning sequence is accessed from the runtime display. Enter the tuning sequence and make tuning adjustments as follows: 1. Press the Scroll key repeatedly until [TUNE???] appears on Line 6. 2. Press the Up[∆] key. [CONTROL] appears on Line 6 and [ENT] flashes next to the Scroll key. 3. Press the Scroll key to start the tuning sequence.
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MOD 30ML Multiloop Controller OPERATION 5. Tune the configured control parameters using the front panel keys as shown in the illustration. The parameters available for tuning are as follows: • Parameters which are always available: Action [ACTION], Gain [GAIN], Reset [RESET], Preact [PREACT], Set-Point Low Limit [SP LOLIM], set-point high limit [SP HILIM], output low limit [OP LOLIM], output high limit [OP HILIM].
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MOD 30ML Multiloop Controller OPERATION 3.15 STARTUP Procedures may vary from application to application, depending upon individual requirements and control loop setup. The initial operating mode (usually manual), the set-point source (usually local), set-point value, and control output can be configured for specified safe values when power is first applied to the instrument. Each time a control application is first started up, check all these items before turn-on. 3.15.
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MOD 30ML Multiloop Controller OPERATION 5. Manually adjust control output to bring process variable to required value. Ramping the output should be slow enough to allow the process to respond without overshooting the required control point.
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MOD 30ML Operation APPENDIX A - EVENT CODES APPENDIX A - EVENT CODES AND TRANSITIONS A.1 EVENT TRANSITIONS Table A-1 lists the event transition codes and descriptions. These transition codes apply to all events for all blocks. Table A-1. Event Transition Messages and Descriptions Message INFOONLY UAK-ONLY UAK-ONLY ACT/UAK ACT/ACK ACT/UAK CLR/UAK CLR/ACK CLR-SUPP ACKED GLBL ACK ACK-SUPP SUPP ENABLED A.2 Description An informational event. No appended text required.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2. Event Codes, Description and Action (Cont’d) Block Codes Full Message Text Type DDOM 4 BLOCK MODE_1 SET TO AUTO DDOM 5 BLOCK MODE_1 SET TO MANUAL DDOM 6 BLOCK MODE_2 SET TO AUTO DDOM 7 BLOCK MODE_2 SET TO MANUAL DDOM 8 I/O MISMATCH DDOM 9 DDOM DI DI DI DI DIF 10 0 1 2 3 4 DIF 5 DIM DIM DIM 4 5 6 DISP 4 DOM DOM DOM 4 5 6 DOM 7 Description/Action Information only. Information only. Information only. Information only.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2. Event Codes, Description and Action Block Codes Full Message Text Type IF 4 DEFAULT DATABASE CHECKSUM ERROR IF 5 MAIN DATABASE CHECKSUM ERROR IF 6 IF 7 IF 8 IF 9 IF 10 IF 11 IF 12 IF 13 IF 14 IF 15 A-6 Description/Action The instrument was shut down due to a checksum error in the default database. The instrument was shut down due to a checksum error in the main database.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2. Event Codes, Description and Action (Cont’d) Block Codes Full Message Text Type IF 16 COMMUNICATIONS PORT MISMATCH IF 17 INSTRUMENT SHUTDOWN FAULT IF 18 MODULE SHUTDOWN FAULT IF 19 PROCESSOR WATCHDOG FAULT IF 20 SPURIOUS EVENT FAULT Description/Action One of the following conditions was detected: • An ICN module (2030N)is installed but no matching ICN block was found in the user database.
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MOD 30ML Operation APPENDIX A - EVENT CODES Block Codes Full Message Text Type IF 21 EPROM CHECKSUM FAULT IF 22 BAD RAM FAULT IF 23 I/O BOARD 1 COMMUNICATIONS ERROR IF 39 BAD CLOCK CHIP IF 40 TIME AND DATE NOT VALID IF 41 I/O IS LOCKED IF 42 COMMUNICATION BLOCKS ARE LOCKED IF 43 DMA FAULT A-8 Description/Action When the instrument was last powered, a checksum error was found in the identity module EPROM and the instrument therefore shut down. See Code 17, INSTRUMENT SHUTDOWN FAULT.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2. Event Codes, Description and Action (Cont’d) Block Codes Full Message Text Type IF 44 I/O OVERRUN Description/Action The instrument is unable to complete all I/O sampling at the intervals specified. The scan execution times should be examined to determine which tasks should be simplified or run at a slower rate. Note that when the instrument is overconfigured, all tasks will run at a proportionally slower rate.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2. Event Codes, Description and Action Block Codes Full Message Text Type IF 135 INSTRUMENT IN HOLD STATE Description/Action Information only: The instrument has entered the hold state and is now running only the i/o section of the user database. IF 136 INSTRUMENT IN LOCAL HOLD STATE Information only: The instrument has entered the local hold state and is now running only the i/o section of the user database.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2. Event Codes, Description and Action Block Codes Full Message Text Type SE 4 ALL DIAG, PA AND NM GLOBALLY ACKED. SE 5 ALL DIAGNOSTICS GLOBALLY ACKED. SE 6 ALL PROCESS ALARMS GLOBALLY ACKED. SE 7 ALL NOTIF/REQ MSGS GLOBALLY ACKED.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2. Event Codes, Description and Action Block Codes Full Message Text Type SEQ 0 BLOCK STATE SET TO RUN SEQ 1 BLOCK STATE SET TO HOLD SEQ 2 BLOCK STATE SET TO OFF SEQ 3 BLOCK STATE SET TO DEBUG SEQ 4 SEQ BLOCK BAD INPUT DETECTED SEQ 5 SEQ BLOCK CALC ERROR SEQ 6 SEQ BLOCK STEP OUT OF RANGE SEQ 7 SEQ BLOCK FAILURE SEQ SEQ SEQ 8 9 10 BLOCK SET TO MANUAL BLOCK MODE SET TO AUTO BLOCK MODE SET TO SEMI-AUTO Description/Action Information only.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2.
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MOD 30ML Operation APPENDIX A - EVENT CODES Table A-2. Event Codes, Description and Action Block Codes Full Message Text Type WDOM 4 BLOCK MODE SET TO AUTO WDOM 5 BLOCK MODE SET TO MANUAL WDOM 6 I/O MISMATCH WDOM 7 WDO_MODULE_ERROR Description/Action Information only. Information only. A slot configured for a digital module contains an intelligent module (analog input, analog output, ICN, MSC or RIO).
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The Company’s policy is one of continuous product improvement and the right is reserved to modify the information contained herein without notice, or to make engineering refinements that may not be reflected in this bulletin. Micromod Automation assumes no responsibility for errors that may appear in this manual. © 2004 MicroMod Automation, Inc. Printed in USA IB-1800R-OPR, Issue 3 9/2004 MicroMod Automation, Inc. 75 Town Centre Drive Rochester, NY USA 14623 Tel. 585-321 9200 Fax 585-321 9291 www.