Command Series Migration to MOD 30ML™ Training Tutorial and Reference Guide for Command Series Migration to MOD 30ML
Command Series Migration to MOD 30ML Function Codes – Introduction The user database is configurable and writable to make the instrument perform
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To change the Algorithm Type (S18): Open the PID block and open the C
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To change the Control Action (S21): Open the PID block and open the G
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To enable Setpoint Tracking (FC21-S14): Open the PID block and open t
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control Notice that the only setpoint mode allowed is LOCAL: Figure P1.14. P
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To change the process variable high alarm (FC21-S7): Open the PAD blo
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To change the process variable low alarm (FC21-S8): Open the PAD bloc
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control a Refer to the following sections from the Function Codes – Gallery
Pre-configured Dual Loop PID Control GENERAL DESCRIPTION The advanced PID controller function code implements a proportional integral derivati
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control EXPLANATION Configuration with this compound requires understanding of
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control S11 PID Input – S11 Floating Point Gain Multiplier input for the PID.
Command Series Migration to MOD 30ML Function Codes – Introduction Display Interface Block(DIF): This block is used in MOD 30ML only. This block h
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control N PID Output – N Floating Point Output of the compound. PID.N is alre
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To configure the inputs: Open the AIN block AIN1 for input 1. See figu
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control Figure P2.3. Dual loop PID with Local SP You will need to use a diff
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To change the display tag name for the PID: Open the display block PID
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To enable feedforward control and change the feedforward type (S6): Op
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To connect / change the value of the Gain Multiplier input (S11): Make
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To change the value of the Manual Reset input (S5): To enter a local va
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To change the values of the following: Proportional Gain - S12 Integral
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To change the value of the Derivative Lag Constant (S15): Open the PID
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To change the value of the Output Limits (S16, S17): Open the PID block
Command Series Migration to MOD 30ML Function Codes – Introduction Figure 1 .1. Instrument Database Architecture 1 - 4
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To change the Algorithm Type (S18): Open the PID block and open the Con
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To change the Control Action (S21): Open the PID block and open the Gen
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To enable Setpoint Tracking (FC21-S14): Open the PID block and open the
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control Notice that the only setpoint mode allowed is LOCAL: Figure P2.14. Dua
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To change the process variable high alarm (FC21-S7): Open the PAD block
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control To change the process variable low alarm (FC21-S8): Open the PAD block
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID Control a Refer to the following sections from the Function Codes – Gallery Tu
Pre-configured Single Loop PID with Remote SP GENERAL DESCRIPTION The advanced PID controller function code implements a proportional integral
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP EXPLANATION Configuration with this compound requires underst
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP compound or change in the Control tab of the PID block. Change
Command Series Migration to MOD 30ML Function Codes – Introduction I/O AND COMMUNICATION MODULE BLOCKS: These blocks specify the physical I/O comp
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP S23 N/A N/A N/A SPTI PID Input – Floating Point Setpoint t
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To configure the inputs: Open the AIN block AIN1 for input 1.
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP Figure P3 .3. PID with Remote SP You will need to use a dif
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To change the display tag name for the PID: Open the display
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To enable feedforward control and change the feedforward type
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To connect / change the value of the Gain Multiplier input (S1
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To change the value of the Manual Reset input (S5): To enter a
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To change the values of the following: Proportional Gain - S12
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To change the value of the Derivative Lag Constant (S15): Open
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To change the value of the Output Limits (S16, S17): Open the
Command Series Migration to MOD 30ML Function Codes – Introduction Type Description Availability Input Function Blocks or signal conditioning
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To change the Algorithm Type (S18): Open the PID block and ope
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To change the Control Action (S21): Open the PID block and ope
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To enable Setpoint Tracking (FC21-S14): Open the PID block and
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP Remote Setpoint Configuration Options: Open the PID block and
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP Auto Bias: Bias value of remote setpoint is automatically man
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To change the process variable high alarm (FC21-S7): Open the
Command Series Migration to MOD 30ML Pre-configured Single Loop PID with Remote SP To change the process variable low alarm (FC21-S8): Open the P
Pre-configured Dual Loop PID with Remote SP GENERAL DESCRIPTION The advanced PID controller function code implements a proportional integral d
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP reference that includes listing of most commonly used / changed
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP S10 N/A N/A N/A S11 PID Input – S11 Floating Point Gain Mult
Command Series Migration to MOD 30ML Function Codes – Introduction NM Notification Message MOD 30ML and Modcell SM Supervisory Message MOD 30M
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP S21 PID Input – Discreet Controller Action. Choose the action
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To configure the inputs: Open the AIN block AIN1 for input 1. S
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP Figure P4.3. Dual PID with Remote SP You will need to use a
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP Figure P4.4. Dual PID with Remote SP P4- 7
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To change the display tag name for the PID: Open the display bl
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To enable feedforward control and change the feedforward type (S
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To connect / change the value of the Gain Multiplier input (S11)
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To change the value of the Manual Reset input (S5): To enter a l
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To change the values of the following: Proportional Gain - S12 I
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To change the value of the Derivative Lag Constant (S15): Open t
Command Series Migration to MOD 30ML Function Codes – Introduction A typical instrument database as function block diagram configured in ViZapp i
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To change the value of the Output Limits (S16, S17): Open the PI
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To change the Algorithm Type (S18): Open the PID block and open
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To change the Control Action (S21): Open the PID block and open
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To enable Setpoint Tracking (FC21-S14): Open the PID block and o
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP Remote Setpoint Configuration Options: Open the PID block and s
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP Auto Bias: Bias value of remote setpoint is automatically manip
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To change the process variable high alarm (FC21-S7): Open the PA
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP To change the process variable low alarm (FC21-S8): Open the PAD
Command Series Migration to MOD 30ML Pre-configured Dual Loop PID with Remote SP a Refer to the following sections from the Function Codes – Gal
Pre-Configured – Cascade Control GENERAL DESCRIPTION This is a pre-configured loop compound that has inputs, outputs, complete Cascade loop PI
Command Series Migration to MOD 30ML Function Codes – Introduction Figure 1 .3. Function blocks inside a loop compound 1 - 9
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control EXPLANATION Configuration with this loop compound requires understanding o
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control GAIN MULTIPLIER INPUT. S11 PID2 Input – S11 Floating Point Gain Multiplie
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control S18 PID1, PID2, PIDFAIL Input – S18 Count Algorithm Type. Choose the type
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To configure the inputs: Open the AIN block AIN1 for input 1. See figure b
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control Figure P5.3. Cascade PID You will need to use a different input function
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To change the display tag name for the PID: Open the display block Display
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To enable feedforward control and change the feedforward type (S6): Open t
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To connect / change the value of the Gain Multiplier input (S11): Make a co
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To change the value of the Manual Reset input (S5): To enter a local value,
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To change the values of the following: Proportional Gain - S12 Integral Res
Command Series Migration to MOD 30ML Function Codes – Introduction FUNCTION BLOCK EXECUTION ORDER: The order in which the blocks in the database
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To change the value of the Derivative Lag Constant (S15): Open the respecti
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To change the value of the Output Limits (S16, S17): Open the respective PI
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To change the Algorithm Type (S18): Open the respective PID block and open
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To change the Control Action (S21): Open the respective PID block and open
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To enable Setpoint Tracking (FC21-S14): Open the respective PID block and o
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To change the process variable high alarm (FC21-S7): Open the desired PAD b
Command Series Migration to MOD 30ML Pre-Configured – Cascade Control To change the process variable low alarm (FC21-S8): Open the desired PAD bl
Pre-configured PID Ratio with Remote SP GENERAL DESCRIPTION The advanced PID controller function code implements a proportional integral deriv
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP reference that includes listing of most commonly used / changed attr
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP S12 ENG Input – GAIN Floating Point Proportional Gain Kp. Enter in
Command Series Migration to MOD 30ML Function Codes – Introduction COMPOUNDS: Function blocks in a database can be compounded (grouped) into a si
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP N PID Output – N Floating Point Output of the compound. PID.N is a
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To configure the inputs: Open the AIN block AIN1 for input 1. See f
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP Figure P6.3. PID Ratio with Remote SP You will need to use a dif
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To change the display tag name for the PID: Open the display block
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To enable feedforward control and change the feedforward type (S6):
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To connect / change the value of the Gain Multiplier input (S11): Ma
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To change the value of the Manual Reset input (S5): To enter a local
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To change the values of the following: Proportional Gain - S12 Integ
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To change the value of the Derivative Lag Constant (S15): Open the P
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To change the value of the Output Limits (S16, S17): Open the PID bl
MicroMod Automation, Inc. The Company MicroMod Automation is dedicated to improving customer efficiency by providing the most cost-effective, applic
Command Series Migration to MOD 30ML Function Codes – Introduction Figure 1 .6. Inside a Compound • You can ungroup a compound by un-compoundin
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To change the Algorithm Type (S18): Open the PID block and open the
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To change the Control Action (S21): Open the PID block and open the
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To enable Setpoint Tracking (FC21-S14): Open the PID block and open
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP Remote Setpoint Configuration Options: Open the PID block and select
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP Auto Bias: Bias value of remote setpoint is automatically manipulat
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To change the process variable high alarm (FC21-S7): Open the PAD bl
Command Series Migration to MOD 30ML Pre-configured PID Ratio with Remote SP To change the process variable low alarm (FC21-S8): Open the PAD blo
BOOK 2 REFERENCE SECTION 2 FUNCTION CODE COMPOUNDS
Function Code 1- Function Generator GENERAL DESCRIPTION This function approximates a nonlinear output to input relationship. The input range i
Command Series Migration to MOD 30ML Function Codes – Introduction • This will un-group the function blocks and place them where the grouped comp
Command Series Migration to MOD 30ML Function Code 1- Function Generator Figure 1 .2.Function Generator compound INPUTS - OUTPUTS INPUTS - OUT
Function Code 2- Manual Set Constant GENERAL DESCRIPTION The output of the Manual Set Constant or the Signal Generator is an analog signal dev
Command Series Migration to MOD 30ML Function Code 2- Manual Set Constant Millisecond time Format: hh:mm:ss.xxx (xxx in millisecond) Hex Hexadec
Command Series Migration to MOD 30ML Error! No text of specified style in document. APPLICATIONS This compound is meant for storing of values that
Command Series Migration to MOD 30ML Function Code 2- Manual Set Constant 2 - 4
Function Code 3 - Lead / Lag GENERAL DESCRIPTION The output of a lead/lag function code equals the product of the time function and the input
Command Series Migration to MOD 30ML Function Code 3 - Lead / Lag EXPLANATION Function code 3 causes the output of the function block to lead or
Command Series Migration to MOD 30ML Function Code 3 - Lead / Lag Lag Function : To select the lag function, leave S3 at its initial value (0) and
Command Series Migration to MOD 30ML Function Code 3 - Lead / Lag 3 - 4
Function Code 6 – High / Low Limiter GENERAL DESCRIPTION This block limits the output signal to a range that lies between a specified high and
Command Series Migration to MOD 30ML Function Codes – Introduction • You can also double-click on the Compound Internals and then select from th
Command Series Migration to MOD 30ML Function Code 6 – High / Low Limiter 6 - 2
Function Code 7 – Square Root GENERAL DESCRIPTION This function computes the square root of the input signal in engineering units. The output
Command Series Migration to MOD 30ML Function Code 7 – Square Root N Output – R Floating Point Connect from the FC7.N signal of the compound.
Command Series Migration to MOD 30ML Function Code 7 – Square Root Figure 7 .3. LN block used for linearizing 7 - 3
Command Series Migration to MOD 30ML Function Code 7 – Square Root 7 - 4
Function Code 8 – Rate Limiter GENERAL DESCRIPTION The output of this block equals the input until the input rate of change exceeds the limit
Command Series Migration to MOD 30ML Function Code 8 – Rate Limiter INPUTS - OUTPUTS Signal Block Type Description S1 RATELIM Input – S1 Floa
Command Series Migration to MOD 30ML Function Code 8 – Rate Limiter To verify this, check the execution order of the blocks. Select Objects – Set
Command Series Migration to MOD 30ML Function Code 8 – Rate Limiter To change the Increase Rate Limit S3: Open the EX block INCLIM. Select the In
Command Series Migration to MOD 30ML Function Code 8 – Rate Limiter Figure 8 .5. Blocks Execution Order after rearranging 8 - 5
Command Series Migration to MOD 30ML Function Codes – Introduction LOOP COMPOUNDS Loop compound is a special compound that contains a loop block.
Command Series Migration to MOD 30ML Function Code 8 – Rate Limiter 8 - 6
Function Code 9 – Analog Transfer GENERAL DESCRIPTION This function selects one of two inputs depending on Boolean input <S3>. The outpu
Command Series Migration to MOD 30ML Function Code 9 – Analog Transfer S2 S1/S2 Input – S2 Floating Point Connect to the S1/S2.S2 signal of the
Command Series Migration to MOD 30ML Function Code 9 – Analog Transfer Figure 9 .2. Blocks Execution Order You can change the execution order of
Command Series Migration to MOD 30ML Function Code 9 – Analog Transfer Figure 9 .4. Timer block S4 To change the transfer time (S5) for S2: Ope
Command Series Migration to MOD 30ML Function Code 9 – Analog Transfer Figure 9 .5. Timer Block S5 9 - 5
Command Series Migration to MOD 30ML Function Code 9 – Analog Transfer 9 - 6
Function Code 10 – High Select GENERAL DESCRIPTION This function selects and outputs the input with the highest algebraic value. UTILIZATION
Command Series Migration to MOD 30ML Function Code 10 – High Select S4 FC10 Input – S4 Floating Point Connect to the FC10.S4 signal to the Hig
Function Code 11 – Low Select GENERAL DESCRIPTION This function selects and outputs the input with the lowest algebraic value. UTILIZATION Th
Command Series Migration to MOD 30ML Function Codes – Introduction Figure 1 .13. Cancel Connection To add a loop compound: Select the Loop Cpd (
Command Series Migration to MOD 30ML Function Code 11 – Low Select N FC11 Output – R Floating Point Connect from the FC11.N output signal from
Function Code 12 – High / Low Compare GENERAL DESCRIPTION This function has two outputs. When the input is equal to or exceeds the high limit,
Command Series Migration to MOD 30ML Function Code 12 – High / Low Compare INPUTS - OUTPUTS Input Block Type Description S1 HIGHLIM Input –
Command Series Migration to MOD 30ML Function Code 12 – High / Low Compare NOTES To change the High alarm point / high limit: Open the HIGHLIM exp
Command Series Migration to MOD 30ML Function Code 12 – High / Low Compare Figure 12 .3. High Select Function Inputs 12 - 4
Function Code 14 - Summer GENERAL DESCRIPTION This function computes the algebraic sum of up to four inputs with unity gain. The output equati
Command Series Migration to MOD 30ML Function Code 14 - Summer Figure 14 .2. Function Code 14 Input Configuration INPUTS - OUTPUTS Signal Bloc
Function Code 15 – Summer (2 Inputs) GENERAL DESCRIPTION This function performs a weighted sum of two inputs. By choosing the proper gains and
Command Series Migration to MOD 30ML Function Code 15 – Summer (2 Inputs) Figure 15 .2. Function Code 15 INPUTS - OUTPUTS Signal Block Type
Function Code 16 – Multiply GENERAL DESCRIPTION This function performs a multiplication of two input signals (S1 by S2) with the result multip
Command Series Migration to MOD 30ML Function Codes – Introduction • Loop compounds also have jump objects when connections are made from or to t
Command Series Migration to MOD 30ML Function Code 16 – Multiply Figure 16 .2. Function Code 16 INPUTS - OUTPUTS Signal Block Type Descripti
Function Code 17 – Divide GENERAL DESCRIPTION This function causes one input S1 to be divided by a second input S2 and the quotient to be mult
Command Series Migration to MOD 30ML Function Code 17 – Divide Figure 17 .2. Function Code 17 INPUTS - OUTPUTS Signal Block Type Description
Function Code 20 – Indicator Station GENERAL DESCRIPTION This function displays 3 inputs in one display one at a time. UTILIZATION The MOD
Command Series Migration to MOD 30ML Function Code 20 – Indicator Station Figure 20 .2. Function Code 14 Input Configuration Add the Display
Command Series Migration to MOD 30ML Error! No text of specified style in document. Figure 20 .3. Closing Compound • Click on the New button on t
Command Series Migration to MOD 30ML Function Code 20 – Indicator Station • A text edit box will appear in the area below and you will see a te
Command Series Migration to MOD 30ML Error! No text of specified style in document. INPUTS - OUTPUTS Signal Block Type Description S1 DISPLAY
Command Series Migration to MOD 30ML Function Code 20 – Indicator Station 20 - 6
Function Codes 25 and 41 – Analog/Digital Input GENERAL DESCRIPTION This function can be used to acquire an input (analog, digital or any othe
Command Series Migration to MOD 30ML Function Codes – Introduction THE CONFIGURATION PROCESS The steps involved configuring a MOD 30ML or Modcell
Command Series Migration to MOD 30ML Function Codes 25 and 41 – Analog/Digital Input To configure the ICN communication in an instrument data
Command Series Migration to MOD 30ML Function Codes 25 and 41 – Analog/Digital Input Figure 25 .3. Function Code 25 and 41 To configure the sourc
Command Series Migration to MOD 30ML Function Codes 25 and 41 – Analog/Digital Input Figure 25 .4. IC Block INPUTS - OUTPUTS Signal Block Typ
Function Code 28 – Analog/Digital Output GENERAL DESCRIPTION This function can be used to send an output (analog, digital or any other data ty
Command Series Migration to MOD 30ML Function Code 28 – Analog/Digital Output To configure the ICN communication in an instrument database, y
Command Series Migration to MOD 30ML Function Code 28 – Analog/Digital Output Instrument Number – This is the ICN address of the instrument wher
Command Series Migration to MOD 30ML Function Code 28 – Analog/Digital Output 28 - 4
Function Code 33 – NOT GENERAL DESCRIPTION Function code 33 performs a logical negation of the input (the output is the opposite of the input)
Command Series Migration to MOD 30ML Function Code 33 – NOT 33 - 2
Function Code 34 – Memory (RS Flip Flop) GENERAL DESCRIPTION This function memorizes its previous output when both inputs are logic 0. S1 is t
Command Series Migration to MOD 30ML Function Codes – Introduction Procedure for adding the Display Tag to the Display Interface Block Each displa
Command Series Migration to MOD 30ML Function Code 34 – Memory (RS Flip Flop) Figure 34 .2. Function Code 34 S3 INPUTS - OUTPUTS Truth Table f
Function Code 35 – Timer GENERAL DESCRIPTION The timer function code performs pulsed timing function. The duration of time delay is specified
Command Series Migration to MOD 30ML Function Code 35 – Timer Figure 35 .2. Function Code 35 S3 INPUTS – OUTPUTS Signal Block Type Descript
Command Series Migration to MOD 30ML Error! No text of specified style in document. EXPLANATION I/O Elapsed Time < S3 Elapsed Time > S3 IN
Command Series Migration to MOD 30ML Function Code 35 – Timer 35 - 4
Function Code 36 – Qualified OR GENERAL DESCRIPTION The qualified OR function code monitors the status of up to eight digital inputs and produ
Command Series Migration to MOD 30ML Function Code 36 – Qualified OR To specify the value of S9, open the EX block and click on the Inputs tab. D
Command Series Migration to MOD 30ML Function Code 36 – Qualified OR Figure 36 .3. INPUTS - OUTPUTS Signal Block Type Description S1 FC36
Command Series Migration to MOD 30ML Function Code 36 – Qualified OR S7 FC36 Input – S7 Boolean (Discrete) Connect to the FC36.S7 signal of the
Function Code 37 – AND (2 input) GENERAL DESCRIPTION The 2-input AND function code performs the logical AND function. The output is logic 1 wh
Command Series Migration to MOD 30ML Function Codes – Introduction Figure 1 .16. DIF block Click on the New button on this block as shown in fig
Command Series Migration to MOD 30ML Function Code 37 – AND (2 input) Truth Table Figure 37 .2. Function Code 37 Truth Table 37 - 2
Function Code 38 – AND (4 input) GENERAL DESCRIPTION The 4-input AND function code performs the logical AND function. The output is logic 1 wh
Command Series Migration to MOD 30ML Function Code 38 – AND (4 input) N FC38 Output – R Boolean (Discrete) Connect from the FC.38.N signal of t
Function Code 39 – OR (2 input) GENERAL DESCRIPTION The 2-input OR function code performs the logical OR function. The output is logic 1 if ei
Command Series Migration to MOD 30ML Function Code 39 – OR (2 input) 39 - 2
Function Code 40 – OR (4 input) GENERAL DESCRIPTION The 4-input OR function code is used to perform the logical OR function. The output is log
Command Series Migration to MOD 30ML Function Code 40 – OR (4 input) Truth Table Figure 40 .2. Function Code 40 Truth Table 40 - 2
Function Code 51- Manual Set Constant GENERAL DESCRIPTION The output of the Manual Set Constant or the Signal Generator is an analog signal de
Command Series Migration to MOD 30ML Function Code 51- Manual Set Constant INPUTS - OUTPUTS Signal Type Block Description S1 Input – S1 Float
Function Code 59- Digital Transfer GENERAL DESCRIPTION This function code selects one of two digital inputs, depending on a transfer switch si
Command Series Migration to MOD 30ML Function Codes – Introduction A text edit box will appear in the area below and you will see a text edit curs
Command Series Migration to MOD 30ML Function Code 59- Digital Transfer 59 - 2
Function Code 65 – Digital Sum with Gain GENERAL DESCRIPTION This function computes the weighted sum of up to four Boolean inputs. The output
Command Series Migration to MOD 30ML Function Code 65 – Digital Sum with Gain Figure 65 .2. Function Code 65 Input Configuration INPUTS - OUTP
Command Series Migration to MOD 30ML Function Code 65 – Digital Sum with Gain S6 FC65 Input gain parameter – S6 Floating Point Connect to the F
Command Series Migration to MOD 30ML Function Code 65 – Digital Sum with Gain 65 - 4
Function Code 156 – PID with Local SP GENERAL DESCRIPTION The advanced PID controller function code implements a proportional integral derivat
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP EXPLANATION Configuration with this compound requires understanding o
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP GAIN to change the value. S13 ENG Input – RESET Floating Point Integra
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP S23 N/A N/A N/A SPTI PID Input – Floating Point Setpoint track inp
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To enable feedforward control and change the feedforward type (S6): Ope
Command Series Migration to MOD 30ML CONTENTS CONTENTS Page BOOK 1 SECTION 1 – FUNCTIONCODES - INTRODUCTION HOW TO USE THIS BOOK ...
Command Series Migration to MOD 30ML Function Codes – Introduction PID CONFIGURATION REFERENCE The PID block in the MOD 30ML/Modcell is versatile
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To connect / change the value of the Gain Multiplier input (S11): Make
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To change the value of the Manual Reset input (S5): To enter a local val
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To change the values of the following: Proportional Gain - S12 Integra
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To change the value of the Derivative Lag Constant (S15): Open the PID b
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To change the value of the Output Limits (S16, S17): Open the PID bloc
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To change the Algorithm Type (S18): Open the PID block and open the Cont
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To change the Control Action (S21): Open the PID block and open the Ge
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To enable Setpoint Tracking (FC21-S14): Open the PID block and open the
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP Notice that the only setpoint mode allowed is LOCAL: Figure 156 .12.
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To change the process variable high alarm (FC21-S7): Open the PAD block
Command Series Migration to MOD 30ML Function Codes – Introduction Figure 1 .20. PID Control Tab • Select the Algorithm Type and change it to ES
Command Series Migration to MOD 30ML Function Code 156 – PID with Local SP To change the process variable low alarm (FC21-S8): Open the PAD block
Function Code 156 – PID (Cascade) GENERAL DESCRIPTION The advanced PID controller function code implements a proportional integral derivative
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) EXPLANATION Configuration with this compound requires understanding of th
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) of the PID2 block. Change the value for GAIN MULTIPLIER INPUT. S11 PIDFA
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) S19 N/A N/A N/A S21 PID1, PID2, PIDFAIL Input – S21 Discreet Controller
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To change the display tag name for the PID: Open the display block Displ
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To enable feedforward control and change the feedforward type (S6): Open
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To connect / change the value of the Gain Multiplier input (S11): Make a
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To change the value of the Manual Reset input (S5): To enter a local value
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To change the values of the following: Proportional Gain - S12 Integral R
Command Series Migration to MOD 30ML Function Codes – Introduction M 8 MICRO-SCAN. Reset response is turned on and is operating with MICRO-SCAN a
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To change the value of the Derivative Lag Constant (S15): Open the respect
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To change the value of the Output Limits (S16, S17): Open the respective
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To change the Algorithm Type (S18): Open the respective PID block and open
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To change the Control Action (S21): Open the respective PID block and ope
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To enable Setpoint Tracking (FC21-S14): Open the respective PID block and
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To change the process variable high alarm (FC21-S7): Open the desired PAD
Command Series Migration to MOD 30ML Function Code 156 – PID (Cascade) To change the process variable low alarm (FC21-S8): Open the desired PAD b
Function Code 156 – PID with Remote SP GENERAL DESCRIPTION The advanced PID controller function code implements a proportional integral deriva
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP EXPLANATION Configuration with this compound requires understanding
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP Floating Point GAIN to change the value. S13 ENG Input – RESET Flo
Command Series Migration to MOD 30ML Function Codes – Introduction The valid actions for CATYPE are: EOOO Gain on error, Reset off, Pre-Act of
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP N PID Output – N Floating Point Output of the compound. Connect fro
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To change the display tag name for the PID: Open the display block
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To enable feedforward control and change the feedforward type (S6):
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To connect / change the value of the Gain Multiplier input (S11): Ma
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To change the value of the Manual Reset input (S5): To enter a local
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To change the values of the following: Proportional Gain - S12 Integ
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To change the value of the Derivative Lag Constant (S15): Open the PI
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To change the value of the Output Limits (S16, S17): Open the PID bl
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To change the Algorithm Type (S18): Open the PID block and open the C
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To change the Control Action (S21): Open the PID block and open the
Command Series Migration to MOD 30ML Function Codes – Introduction • Click on the Setpoint tab to select the Setpoint configuration options. See
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To enable Setpoint Tracking (FC21-S14): Open the PID block and open t
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP Remote Setpoint Configuration Options: Open the PID block and selec
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP Auto Bias: Bias value of remote setpoint is automatically manipulate
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To change the process variable high alarm (FC21-S7): Open the PAD bl
Command Series Migration to MOD 30ML Function Code 156 – PID with Remote SP To change the process variable low alarm (FC21-S8): Open the PAD bloc
Function Code 156 – PID Ratio with Remote SP GENERAL DESCRIPTION The advanced PID controller function code implements a proportional integral
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP reference that includes listing of most commonly used / changed
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP Floating Point Inputs tab and select the input RESET to change
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To change the display tag name for the PID: Open the display b
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To enable feedforward control and change the feedforward type
Command Series Migration to MOD 30ML Function Codes – Introduction • Click on the Output tab to select the output configuration options. See the
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To connect / change the value of the Gain Multiplier input (S11
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To change the value of the Manual Reset input (S5): To enter a
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To change the values of the following: Proportional Gain - S12
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To change the value of the Derivative Lag Constant (S15): Open
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To change the value of the Output Limits (S16, S17): Open the P
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To change the Algorithm Type (S18): Open the PID block and ope
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To change the Control Action (S21): Open the PID block and open
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To enable Setpoint Tracking (FC21-S14): Open the PID block and
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP Remote Setpoint Configuration Options: Open the PID block and s
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP Auto Bias: Bias value of remote setpoint is automatically man
Command Series Migration to MOD 30ML Function Codes – Introduction block or it can be an internal value in the PID block that can be manually cha
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP To change the process variable high alarm (FC21-S7): Open the P
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP Figure 156rr .15. Process Variable Low Alarm PID Ratio with R
Command Series Migration to MOD 30ML Function Code 156 – PID Ratio with Remote SP 156rr - 18
Function Code 156 – PID with Manual/Auto Station GENERAL DESCRIPTION The PID with Manual/Auto station function basically performs Manual / Aut
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station EXPLANATION Configuration with this compound requires unde
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station S12 M/A Input – GAIN Floating Point Proportional Gain Kp. E
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station To change the display tag name for the PID: Open the displ
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station To enable feedforward control and change the feedforward type
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station To connect / change the value of the Gain Multiplier input
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station To change the value of the Manual Reset input (S5): To enter
BOOK 1 SECTION 2 GALLERY TUTORIAL
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station To change the value of the Derivative Lag Constant (S15): O
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station To change the value of the Output Limits (S16, S17): Open the
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station To change the Control Action (S21): Open the PID block and
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station Note that the OP (Output) of the PID block is connected to th
Command Series Migration to MOD 30ML Function Code 156 – PID with Manual/Auto Station Notice that the only setpoint mode allowed is REMOTE: Figur
Function Code 156 – Auto Bias Station GENERAL DESCRIPTION The PID with Auto Bias Station is basically a Manual/Auto station that performs Manu
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station EXPLANATION Configuration with this compound requires understanding o
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station MULTIPLIER INPUT. S12 AUTO BIAS Input – GAIN Floating Point Proport
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station To change the display tag name for the PID: Open the display block PI
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station To enable feedforward control and change the feedforward type (S6):
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station To connect / change the value of the Gain Multiplier input (S11): Make
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station To change the value of the Manual Reset input (S5): To enter a local
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station To change the values of the following: Proportional Gain - S12 Integra
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station To change the value of the Derivative Lag Constant (S15): Open the PI
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station To change the value of the Output Limits (S16, S17): Open the PID bloc
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station Note that the OP (Output) of the PID block is connected to the SPTI (
Command Series Migration to MOD 30ML Function Code 156 – Auto Bias Station Notice that the only setpoint mode allowed is REMOTE: Figure 156ab .10
Function Code 165 - Moving Average GENERAL DESCRIPTION The moving average function code computes a moving average from n samples taken at a de
Command Series Migration to MOD 30ML Function Code 165 - Moving Average INPUTS - OUTPUTS Signal Type Block Description S1 Input – S1 Floating
BOOK 2 REFERENCE SECTION 3 EXTRAS
Function Codes – Gallery Tutorial FOREWORD The ViZapp (Visual Application Designer) software has a library of function block compounds that rep
Extras – Reject to Manual GENERAL DESCRIPTION The Reject to Manual compound sends a logical Zero output when its digital input does a low to h
Command Series Migration to MOD 30ML Extras – Reject to Manual INPUTS - OUTPUTS Signal Type Block Description S1 Input – S1 Discrete QUALLOGI
The Company’s policy is one of continuous product improvement and the right is reserved to modify the information
Command Series Migration to MOD 30ML CONTENTS BOOK 2 – FUNCTION CODE GALLERY COMPOUNDS REFERENCE SECTION 1 – PRE-CONFIGURED CONTROL STRATEGIES 1
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial INSTRUCTIONS – CREATING A NEW WORKSPACE, PROJECT AND DOCUMENT 1. Launch Vi
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .3. New Workspace • By default, the workspace file is created i
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial • The New dialog box will redisplay Figure 2 .5. New Workspace • T
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial • Notice that the workspace Class is added to the project tree. We will cr
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .9. Class Workspace • The left frame shows the project tree. T
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .10. New Document • The New dialog box shows the Document tab no
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .11. Choose Instrument Version • Select MOD 30ML 2 from this li
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Each instrument will have its own database. The databases of the instrum
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial CONFIGURING SCAN GROUPS AND LOOP COMPOUNDS 5. Let us first configure a sc
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial M/A Station – Function Code 21 Analog output AO – Function Code 29 Figure 2
Command Series Migration to MOD 30ML CONTENTS 20 FUNCTION CODE 35 – TIMER...
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial • Select the Loop Cpd (Loop compound) block from the Algorithms window ad
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial • Type a description "This compound is for the Flow Control Loop"
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .19. Open Compound • The loop compound will open as shown below
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .20. Inside the Loop Compound A loop compound is a compound or
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .21. Loop Block • Close the Loop block by clicking on the OK bu
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial ADDING COMPOUND FROM THE GALLERY 11. We will now use a compound from the B
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .23. Bailey FC Gallery • The compounds in this gallery have be
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .24. Bailey FC Gallery • The exported compound will be placed in
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial ADDING I/O 12. The loaded compound has all the function blocks for doing t
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial • Resize the block by dragging one of the handles (corner or side) Figure
Command Series Migration to MOD 30ML CONTENTS iv
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial • The next function block VCI, is a signal conditioning block. This block
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .29. PID Options Tab • Click on OK to accept the changes and clo
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial MAKING CONNECTIONS 15. The next step is to connect the blocks together.
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .33. Connecting blocks • The connection will now be complete. Th
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .35. Right Angle connection • Click on the output point of the
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .37. Choose Parameter • Select PID.S1 from the list and then cli
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .39. Cancel Connection 17. Connect the PID output from the com
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .41. 2 - 29
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial CHANGING ENGINEERING RANGES AND ALARM TRIP VALUES 18. The FC156 PID (PV/L
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .44. ENG block • Select the Inputs tab of this block. Double-cl
BOOK 1 SECTION 1 FUNCTION CODES – INTRODUCTION
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .45. ENG block • Repeat the above process to configure the Low
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial If you press the ALARM key on the faceplate when the alarm is active, th
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial CONFIGURING DISPLAY TAG FOR THE PID DISPLAY 19. Each display configured i
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .48. PID Display • Click on OK to close the block. 2 - 35
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial 20. Close the compound: • First click on a blank area of the function b
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial 21. Add the Display Tag to the Display Interface Block: The next step is t
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .52. Closing Compound • A text edit box will appear in the are
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .53. Closing Compound • Refer back to the figure 1-37 for the di
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial SAVING DOCUMENTS 22. Save your Document. Figure 2 .54. File Menu • I
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial SETTING UP COMMUNICATIONS WITH MODBUS 23. We need to setup communications f
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial The connections for the port are available in the terminals in the back
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial COMPILING THE DATABASE It is necessary to compile the database without erro
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .60. Interface File Options for Modbus • If the database has er
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial Figure 2 .61. Information Window • You can double-click on an error to o
Command Series Migration to MOD 30ML Function Codes – Gallery Tutorial 2 - 46
BOOK 2 REFERENCE SECTION 1 PRE-CONFIGURED CONTROL STRATEGIES
Pre-configured Single Loop PID Control GENERAL DESCRIPTION The advanced PID controller function code implements a proportional integral deriva
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control EXPLANATION Configuration with this compound requires understanding
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control of the PID block. Change the value for GAIN MULTIPLIER INPUT. S12 EN
Function Codes – Introduction HOW TO USE THIS BOOK This book is meant for users of Bailey SLC, CLC controllers who are migrating to the new gen
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control the first loop. S22 N/A N/A N/A S23 N/A N/A N/A SPTI PID Input
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To configure the inputs: Open the AIN block AIN1 for input 1. See fi
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control Figure P1.3. PID with Local SP You will need to use a different in
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To change the display tag name for the PID: Open the display block P
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To enable feedforward control and change the feedforward type (S6):
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To connect / change the value of the Gain Multiplier input (S11): Mak
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To change the value of the Manual Reset input (S5): To enter a local
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To change the values of the following: Proportional Gain - S12 Integr
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To change the value of the Derivative Lag Constant (S15): Open the PI
Command Series Migration to MOD 30ML Pre-configured Single Loop PID Control To change the value of the Output Limits (S16, S17): Open the PID blo
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