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The module <FLibComplex1> of the subsystem “Specials”

Module:FLibComplex1
Name:Library of functions compatible with SCADA Complex1.
Òèï:Specials
Source:spec_FLibComplex1.so
Version:1.0.6
Author:Roman Savochenko
Translated:Maxim Lysenko
Description:Provides the library of functions compatible with SCADA Complex1 of the firm SIC "DIYA".
License:GPL


Contents

Introduction

Special module FLibComplex1 provides the OpenSCADA system with the static library of functions compatible with SCADA Complex1 of firm SIC "DIYA". These functions are used in the SCADA system Complex1 in the form of algoblocks to create inner-computings on the virtual controller. Provision of the library of these functions lets to do the transfer of computational algorithms from the system Complex1.


To address the functions of this library must it is necessary to use the path: <Special.FLibComplex1.*>, where '*' - function identifier in the library.


Below is the description of each function of the library. For each function it was evaluated the execution time. Measurements were made on the system with the following parameters: Athlon 64 3000 + (ALTLinux 4.0 (32bit)) by measuring the total execution time of the function when you call it 1000 times. Sampling was carried out of the five calculations, rounded to integer. Time is in angle brackets and is measured in microseconds.

1. Alarm (alarm) <111>

Description: Set alarm sign in the case of going out of the variable for the specified boundary.
Formula:

out = if(val>max || val<min) true; else false;

2. Condition '<' (cond_lt) <239>

Description: Operation of branching in accordance with the condition "<".
Formula:

out=if(in1<(in2_1*in2_2*in2_3*in2_4)) in3_1*in3_2*in3_3*in3_4;
else in4_1*in4_2*in4_3*in4_4;

3. Condition '>' (cond_gt) <240>

Description: Operation of branching in accordance with the condition ">".
Formula:

out=if(in1>(in2_1*in2_2*in2_3*in2_4)) in3_1*in3_2*in3_3*in3_4;
else in4_1*in4_2*in4_3*in4_4;

4. Full condition (cond_full) <513>

Description: Full check of the conditions, including more, less and equal.
Formula:

out = if(in1<(in2_1*in2_2*in2_3*in2_4)) in3_1*in3_2*in3_3*in3_4;
else if( in1>(in4_1*in4_2*in4_3*in4_4) in5_1*in5_2*in5_3*in5_4;
else in6_1*in6_2*in6_3*in6_4;

5. Digital block (digitBlock) <252>

Description: Function contains the control algorithm of digital signals acquisition for valves and pumps that contain: signs of "Open", "Close" and the command "Open", "Close", "Stop". Supports work with pulse commands, i.e. can read the signal through the specified period of time.
Parameters:

IDParameterTypeMode
cmdOpenCommand "Open"BoolOut
cmdCloseCommand "Close"BoolOut
cmdStopCommand "Stop"BoolOut
stOpenPosition "Opened"BoolIn
stClosePosition "Closed"BoolIn
tCmdCommand hold time (s)IntegerIn
frqFrequency of calculation (milliseconds)IntegerIn

6. Division (div) <526>

Description: Makes division of the set of variables.
Formula:

out = (in1_1*in1_2*in1_3*in1_4*in1_5 + in2_1*in2_2*in2_3*in2_4*in2_5 + in3) /
(in4_1*in4_2*in4_3*in4_4*in4_5 + in5_1*in5_2*in5_3*in5_4*in5_5 + in6);

7. Exponent (exp) <476>

Description: Calculating the exponent under the group of variables.
Formula:

out=exp (in1_1*in1_2*in1_3*in1_4*in1_5 + (in2_1*in2_2*in2_3*in2_4*in2_5+in3) /
(in4_1*in4_2*in4_3*in4_4*in4_5+in5) )

8. Flow (flow) <235>

Description: Calculation of the gas flow.
Formula:

f = K1*((K3+K4*x)^K2);

9. Iterator (increment) <181>

Description: Iterative calculation with the increment specifying. Gain ratio for different directions is different.
Formula:

out = if( in1 > in2 ) in2 + in3*(in1-in2); 
else in2 - in4*(in2-in1);

10. Lag (lag) <121>

Description:Variation of the variable lag. Practice, this is the filter without reference to time.
Formula:

y = y - Klag*( y - x );

11. Simple multiplication(mult) <259>

Description: Simple multiplication with division.
Formula:

out=(in1_1*in1_2*in1_3*in1_4*in1_5*in1_6)/
(in2_1*in2_2*in2_3*in2_4);

12. Multiplication + Division(multDiv) <468>

Description: Branched multiplication + division.
Formula:

out=in1_1*in1_2*in1_3*in1_4*in1_5*
(in2_1*in2_2*in2_3*in2_4*in2_5+(in3_1*in3_2*in3_3*in3_4*in3_5)/
(in4_1*in4_2*in4_3*in4_4*in4_5));

13. PID regulator (pid) <745>

Description: Proportional-integral-differential regulator.
Parameters:

IDParameterTypeModeBy defaults
varVariableRealIn0
spSet pointRealOut0
maxMaximum of scaleRealIn100
minMinimum of scaleRealIn0
manInManual input (%)RealIn0
outOut (%)RealReturn0
autoAutoBoolIn0
cascCascadeBoolIn0
KpKpRealIn1
TiTi (ms)IntegerIn1000
KdKdRealIn1
TdTd (ms)IntegerIn0
TzdTd lag (ms)IntegerIn0
HupUpper limit of the out (%)RealIn100
HdwnLower limit of the out (%)RealIn0
ZiInsensitivity (%)RealIn1
followSpFollow sp from var on manualBoolIn1
K1Koef. of the input 1RealIn0
in1Input 1RealIn0
K2Koef. of the input 2RealIn0
in2Input 2RealIn0
K3Koef. of the input 3RealIn0
in3Input 3RealIn0
K4Koef. of the input 4RealIn0
in4Input 4RealIn0
f_frqFrequency of calculation (Hz)RealIn1

Structure:
file:pid.png

14. Power (pow) <564>

Description: Raising to the power
Formula:

out=(in1_1*in1_2*in1_3*in1_4*in1_5)^
(in2_1*in2_2*in2_3*in2_4*in2_5 + (in3_1*in3_2*in3_3*in3_4*in3_5)/
(in4_1*in4_2*in4_3*in4_4*in4_5));

15. Selection (select) <156>

Description: Selection of the one from four options.
Formula:

out = if( sel = 1 ) in1_1*in1_2*in1_3*in1_4;
if( sel = 2 ) in2_1*in2_2*in2_3*in2_4;
if( sel = 3 ) in3_1*in3_2*in3_3*in3_4;
if( sel = 4 ) in4_1*in4_2*in4_3*in4_4;

16. Simple integrator (sum) <404>

Description: A simple summation with the multiplication.
Formula:

out=in1_1*in1_2+in2_1*in2_2+in3_1*in3_2+in4_1*in4_2
+ in5_1*in5_2+in6_1*in6_2+in7_1*in7_2+in8_1*in8_2;

17. Sum with the division (sum_div) <518>

Description: The summation the set of values with the division.
Formula:

out = in1_1*in1_2*(in1_3+in1_4/in1_5) + 
in2_1*in2_2*(in2_3+in2_4/in2_5) +
in3_1*in3_2*(in3_3+in3_4/in3_5) + 
in4_1*in4_2*(in4_3+in4_4/in4_5);

18. Sum with the multiplication. (sum_mult) <483>

Description: The summation the set of values with the multiplication.
Formula:

out = in1_1*in1_2*(in1_3*in1_4+in1_5) + 
in2_1*in2_2*(in2_3*in2_4+in2_5) +
in3_1*in3_2*(in3_3*in3_4+in3_5) + 
in4_1*in4_2*(in4_3*in4_4+in4_5);

Links

Referring pages: HomePageEn/Doc
HomePageEn/Doc/DAQ
HomePageEn/Doc/FLibComplex1
HomePageEn/Doc/ProgrammManual
HomePageEn/Doc/ProgrammManual/part5


 
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