Derivative (DERV)

This information applies to the CompactLogix 5370, ControlLogix 5570, Compact GuardLogix 5370, GuardLogix 5570, Compact GuardLogix 5380, CompactLogix 5380, CompactLogix 5480, ControlLogix 5580, and GuardLogix 5580 controllers.
The DERV instruction calculates the amount of change of a signal over time in per-second units.
Available Languages
Ladder Diagram
This instruction is not available for ladder diagram.
Function Block
RSL5K_DERV_Function Block_v31
Structured Text
DERV(DERV_tag);
Operands
Function Block
Operand
Type
Format
Description
DERV tag
DERIVATIVE
structure
DERV structure
DERIVATIVE Structure
Input Parameter
Data Type
Description
EnableIn
BOOL
Enable input. If false, the instruction does not execute and outputs are not updated.
Default is true.
In
REAL
The analog signal input to the instruction.
Valid = any float
Default = 0.0
Gain
REAL
Derivative multiplier
Valid = any float
Default = 1.0
ByPass
BOOL
Request to bypass the algorithm. When ByPass is true, the instruction sets Out = In.
Default is false.
TimingMode
DINT
Selects timing execution mode.
0 = periodic mode
1 = oversampling mode
2 = Real time sampling mode
For more information about timing modes, see Function Block Attributes
Valid = 0 to 2
Default = 0
OversampleDT
REAL
Execution time for oversample mode.
Valid = 0 to 4194.303 seconds
Default = 0
RTSTime
DINT
Module update period for real time sampling mode
Valid = 1 to 32,767ms
Default = 1
RTSTimeStamp
DINT
Module time stamp value for real time sampling mode.
Valid = 0 to 32,767ms
Default = 0
Output Parameter
Data Type
Description
EnableOut
BOOL
Indicates if instruction is enabled. Cleared to false if Out overflows.
Out
REAL
The calculated output of the algorithm.
DeltaT
REAL
Elapsed time between updates. This is the elapsed time in seconds used by the control algorithm to calculate the process output.
Status
DINT
Status of the function block.
InstructFault (Status.0)
BOOL
The instruction detected one of the following execution errors. This is not a minor or major controller error. Check the remaining status bits to determine what occurred.
TimingModeInv (Status.27)
BOOL
Invalid TimingMode value.
For more information about timing modes, see Function Block Attributes.
RTSMissed (Status.28)
BOOL
Only used in real time sampling mode. Set to true when
ABS (DeltaT - RTSTime) > 1 millisecond.
RTSTimeInv (Status.29)
BOOL
Invalid RTSTime value.
RTSTimeStampInv (Status.30)
BOOL
Invalid RTSTimeStamp value.
DeltaTInv (Status.31)
BOOL
Invalid DeltaT value.
Structured Text
Operand
Type
Format
Description
DERV tag
DERIVATIVE
structure
DERV structure
See Structured Text Syntax for more information on the syntax of expressions within structured text.
Description
The DERV instruction supports a bypass input that lets you stop calculating the derivative and pass the signal directly to the output.
When Bypass is
The instruction uses this equation
Cleared and DeltaT > 0
DERV_Cleared and DeltaT
where DeltaT is in seconds
Set
DERVE_Set
Affects Math Status Flags
No
Major/Minor Faults
None specific to this instruction. See Common Attributes for operand-related faults.
Execution
Function Block
Condition/State
Action Taken
Prescan
EnableIn and EnableOut bits are cleared to false.
Tag.EnableIn is false
EnableIn and EnableOut bits are cleared to false.
Structured Text: NA
Tag.EnableIn is true
EnableIn and EnableOut bits are set to true.
The instruction executes.
Instruction first run
N/A
Instruction first scan
Recalculate coefficients.
Postscan
EnableIn and EnableOut bits are cleared to false.
Structured Text
Condition/State
Action Taken
Prescan
See Prescan in the Function Block table.
Normal Execution
See Tag.EnableIn is true in the Function Block table.
Postscan
See Postscan in the Function Block table.
Examples
This example is the minimal legal programming of the DERV function block and is only used to show the neutral text and generated code for this instruction. This is for internal purposes only and is not a testable case.
Function Block
RSL5K_DERV_Function Block Example_v31
Structured Text
DERV_01.In := Speed_Reference;
DERV_01.Gain := Feedforward_Gain;
DERV(DERV_01);
PI_01.In := Speed_Reference - Speed_feedback;
PI_01.Kp := Proportional_Gain;
PI_01.Wld := Integral_Gain;
PI(PI_01);
regulator_out := DERV_01.Out + PI_01.Out;
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