38 0 3MB
ReSy104 Training
Sebastian Prus
Phoenix Contact Starter Training Agenda
PC Worx Basics IEC 60870-5-104 Basics PSI-MODEM-GSM/ETH ILC 151 GSM
PC Worx 6.30.767 Programming of Controller with IEC 61131-3
▪ IEC 61131 is a norm for the field of automation systems ▪ IEC 61131 standardizes: ▪ the programming languages ▪ the interfaces between PLC and programming system ▪ the sets of instructions and the handling and structuring of projects ▪ No firewall allowed in PC Worx ▪ Virtual machine suggested ▪ Bridge the network card ▪ Work in a safe environment
Create a new Project Open Project Wizard
Project Wizard Project name and path
Project Wizard Name and language of POU
▪ Select language up to IEC 61131-3
Project Wizard Name and type of hardware configuration ▪ Type: CPU Type of Controller ▪ ILC 1xx = eCLR ▪ ILC 3xx = ARM_L_40 ▪ ILC 4xx = IPC_40
Project Wizard Name and type of Ressource
▪ Type: PLC-Type
Indicator for firmware
Project Wizard Type of Task ▪ Default: Demanded for ReSy Systems
Project Timing
PC Worx Basics Primary Work Spaces
Bus configuration Choose the hardware: PLC / BK and the IOs
Bus configuration Establish IP address in correct ip area to your computer
IP Assign Establish IP address in correct ip area to your computer ▪ ▪ ▪ ▪
Start the BootP protocoll on your controller via hardreset Choose the PLC / BK Set correct IP parameters Your pc have to be in the same IP area
Insert a library Change path ▪ Insert the zwt file of a library to your direction just by copy and paste the file ▪ In PC Worx Press Extras >> Options >> Directories ▪ Update the Project Directory and Library Directory to the correct path ▪ Accept the changes with “Übernehmen”
Insert a library Unzip library
Insert a library ReSy104 Sample
Insert a library Compile the included Libraries of ReSy104_Sample
▪ Open the included libraries with file >> open project ▪ Start with ReSyBasic ▪ ReSy104 is settled on the ReSyBasic ▪ ReSyBasic has to be on first place of project tree (Slide before) ▪ Compile the library via STRG + F9 or “Compile Worksheet” Button (Press only F9 will not compile bus structure) ▪ Open the ReSy104 library and compile as well
Insert a library
Now we can finally insert the libraries into OUR project ☺
IEC 60870–5–104 Basics The communication SCADA
Kommunikationsstandard nach IEC 60870 – 5 Teil 104
Ethernet
DSL Modem
ILC 170 ETH ILC 170 ETH 2TX
I1
I5 I2
Order-No.: 2916532 I3 MRESET
mGuard
I9 I6
I7 I4
Q1 I10
I11 I8
Übertragungsmedium : TCP/IP
Q3 I12
Stop
RUN/PRG
RESET
Internet
PRG LNK
ACT
LNK
ACT
GSM / GPRS
ILC 150 GSM/GPRS ILC 170 ETH 2TX
I1
I5 I2
Order-No.: 2916532 I3 MRESET
RESET
PRG LNK
ACT
LNK
ACT
I9 I6
I7 I4
Stop
RUN/PRG
I1
I5 I2
Order-No.: 2916532 I3
Q3 I12
ILC 170 ETH ILC 170 ETH 2TX
Q1 I10
I11 I8
PSI-Modem GSM/ETH
MRESET
PSI-MODEM-GSM/ETH Ord.-No. 27 08 630
V C R C T D D A N L D E R S C T ID M
AN T
RESET
PRG
A V AP A N L C N T K
LNK
ACT
LNK
ACT
I9 I6
I7 I4
Stop
RUN/PRG
Q1 I10
I11 I8
Q3 I12
IEC 60870–5–104 Basics Why remote control standards?
▪ You are absolutely shure, that the datas will be transmitted and received ▪ If the connection is not established, the datas will be stored in Buffers, till the connection is valid again or the Buffer is full ▪ Efficient data traffic ▪ Event orientated ▪ Standardized objects
IEC 60870–5–104 Basics Commands – Objects
SCADA
ILC 370 PN 2TX
Funktionsbaussteine in Command Objects Befehlsrichtung 45 - 64 45 - Single Command 46 - Double Command 47 - Step Command 48 - Set Point Norm 49 - Set Point Scaled 50 - Set Point Float 51 - Set Point Bit String 58 - Single Command CP5
Telegramme
Objects
Befehlsrichtung
Meldungsrichtung
. . . 64 - Set Point Bit String CP5
Spezielle Special Objects Funktionsbausteine 70 - Initialisierungsende 100 - Generalabfrage 103 - Uhrzeitsynchronisation
Funktionsbaussteine in Measure Objects Meldungsrichtung 1 - 35
Remote Terminal Interface RTI - Leitzentrale SCADA
Remote Terminal Unit RTU - Unterstationen Substation
ILC 150 GSM/GPRS ILC 170 ETH 2TX
I1
I5 I2
Order-No.: 2916532 I3 MRESET
RESET
PRG LNK
ACT
LNK
ACT
I9 I6
I7 I4
Stop
RUN/PRG
Q1 I10
I11 I8
Q3 I12
1 - Single Point 3 - Double Point 5 - Step Position 7 - Bit String 9 - Measured Norm 11 - Measured Scaled 13 - Measured Float 15 - Integrated Totals 19 - Measured Norm WQ 30 - Single Point CP5
. . . 35 - Integrated Totals CP5
ReSy104 Basics Project structure 104 topology
Remote Terminal Interface RTI -SCADA Leitzentrale ILC 370 PN 2TX
Gesamtstruktur eines communication between Projekts - Kommunikation the function blocks via zwischen den Bausteinen ConnectionPoint
Connect Manager
Link Manager
ILC 150 GSM/GPRS ILC 170 ETH 2TX
I1
I5 I2
Order-No.: 2916532 I3
MRES ET
I9 I6
I7 I4
I10 I11
I8
Objekt Manager
Q1 Q3 I12
Stop RUN/ PRG RESE T
P R G LN K
AC T
LN K
AC T
Remote Terminal Unit RTU - Substation Unterstationen
Daten Objekte
ReSy104 Basics Create a new 104 project
1.
2.
Open Configuration Open the ReSy104 Group in Edit Wizard
3.
Insert Connect, Link and Object Manager in the correct order
Rename and Insert a new Worksheet
ReSy104 Basics Parameters for the 104 Connection Manager ▪ All INOUT-Variables have to be connected in PC Worx ▪ State is just to look for Processes ▪ You can take the name of the Functionblock without INOUT_ L is for Local, SR for the Data Type: Structure Link- and Object Manager has State, too>> LSR_StateConnMg ▪ The variable: LSR_ConnectionPoint has to be connected to Connect- Link- and Object-Manager and to all the used Objects RTU: Substation
If only 1 RTI: SCADA should have access >> FILTER
ReSy104 Basics ReSy104 Link Manager ▪ Same variable to INOUT_LSR_ConnectionPoint ▪ Any variable to INOUT_LSR_State ▪ Pre-settings for GPRS-Network: T0=T#60s, T1=T#30s, T2=T#90, T3=T#200s
ReSy104 Basics Object Manager
▪ Create a global variable
ReSy104 Basics Handle Global Variables
▪ Global variables can be transferred from one to another task ▪ The variable is now instanced in the ReSy104 program and underneath the global variables of the ressource
ReSy104 Basics Insert a Software Clock on your PLC
▪ Include the master clock out of the ReSyBasic library as a program instance into your default task ▪ The clock instance always have to be on the first place of instances
ReSy104 Basics Time
▪ Now we got a global time on the PLC ▪ All programs could be connected to and work with one time ▪ The ClockMaster provides the advantages of a soft- and hardware-clock ▪ Softclock is more exact than the quartz ▪ Hardclock provides the last stored time after power cut ▪ Other features like slow motion of time if time sync jumps into past or fast motion if time sync jumps into future: for process automation etc.
ReSy104 Basics Create a SinglePoint
▪ Insert new Code Worksheet in the program ReSy104 ▪ Name: SinglePoint ▪ Open the Worksheet
▪ Include a 104 SinglePoint Object ▪ Choose the Group ReSy104 in Edit Wizard ▪ Include the functionblock: ReSy104_MxSpxSinglePo into the worksheet by drag and drop ▪ All measured 104 objects will start with: ReSy104_Mx ▪ Datas will be transferred from RTU to RTI ▪ Substation to SCADA
▪ Connect the SinglePoint POU to ConnectionPoint of Connect-, Link- and ObjectMg
ReSy104 Basics Create a SinglePoint
▪ Connect INOUT_LSR_ParameterState to any local variable ▪ Over this variable you will be able to check the state parameters in the watchwindow ▪ IN_LUSI_ObjectType: ▪ Connect to a static value ▪ Static value >> Name: UDINT#1 >> SinglePoint without timestamp ▪ Static value >> Name: UDINT#30 >> SinglePoint with timestamp ▪ IN_LUDI_Adress… will be given by SCADA system ▪ INOUT_LX_SpiValue ▪ Connect to a boolean variable
ReSy104 Basics Create a SinglePoint
ReSy104 Basics
Object Types – Monitoring: RTU >> RTI Name
Connected datatype
APDU
APDU
No timestamp
with timestamp
ReSy104 POU Name
Single Point
BOOL
1
30
ReSy104_MxSPxSinglePo…
Double Point
2 x BOOL
3
31
ReSy104_MxDPxDoublePo…
Bit String
DWORD
7
33
ReSy104_MxBOxBitString…
REAL
9
34
ReSy104_MxMExNorm…
INT
11
35
ReSy104_MxMExScaled…
Measured Float
REAL
13
36
ReSy104_MxMExFloat…
Integrated Totals
Counter
15
37
ReSy104_MxITxIntTotal…
Measured Normalized Measured Scaled
ReSy104 Basics
Object Types – Command: RTI >> RTU Name
Connected datatype
APDU
APDU
No timestamp
with timestamp
ReSy104 POU Name
Single Command
BOOL
45
58
ReSy104_CxSCxSingleCo…
Double Command
2 x BOOL
46
59
ReSy104_CxDCxDoubleCo…
Step Command
2 x BOOL
47
60
ReSy104_CxRCxStepCo…
Command normalized
REAL
48
61
ReSy104_CxSExNorm…
Command Scaled
INT
49
62
ReSy104_CxSExScaled…
REAL
50
63
ReSy104_CxSExFloat…
DWORD
51
64
ReSy104_CxBOxBitStrin…
Command Float Bit String
Change 104 Storage Object Manager
▪ 24 byte per value ▪ Without changes in ReSy104 library: ▪ Max = 100
Change 104 Storage Object Manager
▪ IF you only use objects with timestamp ▪ RingBuffer for objects without timestamp can be changed to its minimum of 1 ▪ Connect variables or static values with a value of 1 to the not needed storage-types of 104 Object Manager ▪ Open the included 104 library of your project and open the Datatype: ReSy104_UserRegisterpara ▪ Change the storage values in Datatype due to the Object Manager
▪ Compile and open your Project again ▪ Compile the project
Save your project Object Manager
▪ File >> Save Project As / Zip Project As ▪ Datatype: Zipped Project Files (*.zwt) ▪ If you want to transfer the Project to another Computer ▪ Only include Zip User-Libraries ▪ Create a Backup ▪ Zip without libraries ▪ Delete and include the once used libraries to the unzipped file ▪ Save storage ▪ You do not have to compile each library again ▪ One central library path!
Download project to controller ▪ Enter Project Control Dialog ▪ Stop the running project ▪ Reset the controller ▪ Cold-start ▪ Close Project Control Dialog!!!
Debug mode ▪ Enter Debug mode while press the Debug button ▪ Open Watch Window while press Watchwindow button ▪ Insert Variables with right click on variable: ▪ Add to Watch Window
▪ Overwrite boolean variable with opposite ▪ Double click on variable in watch window>> press „Overwrite“
▪ Check if Single Point with timestamp was created ▪ Add ParaState1 to Watch Window
Open the ReSy104_...sample.mwt ▪ Change the Controller…. ▪ Right click on the Controller ▪ Replace ▪ Select the correct Controller ▪ Bus configuration and IEC programming will be changed