Profinet_HW_Config

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Transcript Profinet_HW_Config

HARDWARE CONGIGURATION
PROFINET I/O Controler
SIEMENS S7-300
e.g. CPU 315F-2PN/DP
IPC
Industrial Switch
SIEMENS
SCALANCE 208
PROFINET
PROFInet
IE/PB Link
WAGO System PHOENIX
750-340 CONTACT with BECKHOFF
with BK9103
FL-IL-BK-PAC
SIEMENS
ET 200S
with IM151-3
PROFIBUS
PROFINET IO DEVICES
ET 200S with
IM151-1
BECKHOFF
with BK3010
PROFIBUS SLAVE DEVICES
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Configuration of a PROFINET IO System
PROFINET IO communication model
PROFINET IO SUPERVISORS
Visualization and
Parameterization Web Application
Network
Management
Engineering
Commissioning,
Dignostics
Diagnosis,
Upload/Download
TCP/IP on
Ethernet
PROFINET I/O Controler
Application prgram with access to
process signals via process image
Ethernet
Cyclic data
Exchange
IRT
Configuration,
Production data,
Alarms
Parameterization,
Diagnosis
PROXY
PROFIBUS
PROFINET IO DEVICES
Read and write
IO data
PROFIBUS SLAVE DEVICES
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Configuration of a PROFINET IO System
The PROFINET IO Device Model
The IO device itself is
addressed via Slot0, which
acts as the "station proxy".
SUBSLOT 1 = Channel 1
SUBSLOT 1 = Channel 1
Bus-Interface
(DAP)
SLOT 1 SLOT 2
SUBSLOT 1 = Channel 1
SUBSLOT 1 = Channel 1
SLOT 0
IO-Data is always assigned to a
sub slot.

 Each
sub slot can contain I/O data
or alarms.
I/O Address N
I/O Address N+1
I/O Address N+2
I/O Address N+3
PROFINET bus interface (DAP) and PROFIBUS IO modules = PROFINET IO device
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Configuration of a PROFINET IO System
From GSD import to exchange of data
 Every Ethernet device has the same priority in the
network
 Decentralfield devices will be assigned to a controller
during network configuration
 The device description of the field devices is defined in
a GSD-file
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SIMATIC HW-Config
Configuration Tool
PROFINET IO
CONTROLER
2
Ethernet
3
PROFINET IO
DEVICE
1 GSD import net configuration in the Engineering Tool
2 The configuration is carried out in the engineering system (for example STEP 7).
The configuration and the user program are then transferred to the IO controller.
Once you have assigned device names to the IO devices, the data is exchanged
3 between the IO controller and assigned to IO devices automatically.
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Configuration of a PROFINET IO System
Addressing of a PROFINET IO DEVICE
Addressing of a PROFINET IO DEVICE therefore in total includes:
 MAC address, which is pre-defined in the device and can usually not be
modified.
 Device names which can be freely selected, but which should reflect the
relevant plant part for convenience reasons.
 IP address, which can also be freely selected, but which follows a firm scheme
and which should be selected, similar to the device name, according to the
assigned plant.
If the same address is assigned twice, this may
cause malfunctions of PROFINET. Although
diagnosis functions are usually still available, data
communication is no longer possible. This error is
usually indicated by online
engineering user
interfaces.
Some system approaches allow exchanging the MAC
addresses in PROFINET IO devices. The same approach
applies in terms of IP addresses. You should ensure
uniqueness of the addressing.
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Configuration of a PROFINET IO System
Structure of IP addresses
Private IPv4 address ranges
The green figure of the address is determined by the
number of available networks while the red figure is
determined by the number of network nodes
Example of an IP address = Internet Protocol
Class C network
Decimal format
192
Binary format
11000000 1001101 00010010 00100000
Subnet mask
11111111 1111111 11111111 00000000
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157
018
Length = 4 bytes
Format = decimal In the example, 256 stations with
the following IP addresses can
Host component
be connected
032
6
192.157.018.0 - 192.157.018.255
The zeros in the subnet mask
determine the host component
Configuration of a PROFINET IO System
MAC address (Media Access Control)
Ethernet / MAC address =Media Access Control
Length = 6 bytes
Representation = hexadecimal
Example: 00-0E-8C-XX-XX-XX
Siemens
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Serial No
Configuration of a PROFINET IO System
Address Assignment with DCP (Discovery and Configuration Protocol)
Device name is assigned to a
MAC-Address
1
Offline Configuration
•Each Device receive a device
name (e.g. Siemens coupler)
Online
Write device name
into the device
•Configuration tool
automatically assigns the IPAddress
PROFINET IO
CONTROLER
2
Ethernet
3
Start up
IO Controller assigns
IP-Address to the
device
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MAC Addr 2
MAC Addr 1
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Configuration of a PROFINET IO System
Address assignment
• Using device names
• Device names are saved on the MMC
• Devices can be changed without PG/PC
• No PROFINET IO without MMC
CPU:
The IP address is assigned using
the device names according to the
table
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192.168.100.3
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Configuration of a PROFINET IO System
Basic steps from planning to operating a plant
Setting up and operating an automation system with STEP 7 PC
involves the following basic steps:

Planning the system
 Configuring the system with STEP 7
 Commissioning and testing the plant
 Operating the plant.
 Performing maintenance and modifications.
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Configuration of a PROFINET IO System

From Creating the project to Starting Hardware configuration Tool
 Hardware Catalog and Insert new GSD File
 Configure PROFINET IO Controller

Hardware configuration
 Rack, Slots, Electronic Modules
 Addressing S7-300™ Modules
 Configuration of the PROFINET interface
 Assign parameter to PN Interface

Integrating the SCALANCE X208 into the PROFINET IO system





Assign Device name and IP Address
Configuring Alarms
Configuring Media redundancy tab
Prioritized startup
Configuring the topology

Integrating the ET200S into the PROFINET IO system
 Hardware Configuration
 Assigning a device name to the IO device ET 200S PN (Offline)
 Assigning properties to PROFINET Interface.
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Configuration of a PROFINET IO System
Configure the system with STEP 7 (1)
From Creating the project to Starting Hardware configuration Tool
1 generate a new project
2 Insert Station
project name
storage location
3 starting the hardware
configuration tool
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Configuration of a PROFINET IO System
Configure the system with STEP 7 (2)

HW_Config
 Hardware Catalog
 Insert new GSD File
2 Start “Install New
GSD File” Function
The title bar
1 Hardware Catalog button
3 The new devices are in
Hardware configuration Window
Hardware
Catalog Window
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Configuration of a PROFINET IO System
Configure the system with STEP 7 (3)

Configure PROFINET IO Controller
 Rack, Slots, Electronic Modules
plain list
Hardware catalog
Slot 1 Power Supply
Slot 2 CPU Module with PN Interface
Slot 3 Reserved
Slot 4 -11 Electronic Modules
detailed view
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (4)

Addressing S7-300™ Modules
Slot No.
1
Modules
PS
2
CPU
4
SM
5
6
7
SM SM
SM
8
9
SM SM
10
11
SM
SM
Address 0.0
Address 0.7
Address 1.0
Address 1.7
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (5)

Configuration of the PROFINET interface
1
2
3
1.
2.
3.
4.
Select the module, the PROFINET interface
Assign a name to IO controller
Enter desired IP address and Subnet mask
confirm window with OK
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (6)

Assign parameter to PN Interface
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (7)

Integrating the SCALANCE X208 into the PROFINET IO system
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (8)

Integrating the SCALANCE X208 into the PROFINET IO system
 Assign Device name and IP Address
If you want to operate IE
Switches X200 that were
previously configured over
PROFINET without
PROFINET functionality, the
devices must be reset to
the factory defaults.
You can do this with the
"Reset to Factory Defaults"
function in the Web Based
Management or by pressing
the button when you turn
on the power supply.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (9)

Integrating the SCALANCE X208 into the PROFINET IO system
 Configuring Alarms
1 Select the switch
3
Adjust Alarms in Parameters tab
2 Double –click and open
"Object Properties" tab
System default
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (10)

Integrating the SCALANCE X208 into the PROFINET IO system
 Configuring Media redundancy tab
2 Select Media Redundancy tab
1
Open dialog box
mrpdomain-1
default-mrpdomain
3
4
5
6
"Manager" if you want the device to operate as redundancy manager.
"Client" if the device is part of a redundant network.
"Not node in the ring" if no medium redundancy is configured
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (10)

Integrating the SCALANCE X208 into the PROFINET IO system
 Configuring Media redundancy tab - Continued
2 Select Media Redundancy tab
1
Open dialog box
mrpdomain-1
default-mrpdomain
3
4
5
6
"Manager" if you want the device to operate as redundancy manager.
"Client" if the device is part of a redundant network.
"Not node in the ring" if no medium redundancy is configured
 To ensure problem-free operation when using a third-party device as the redundancy manager in the ring, make
sure that you assign the fixed role of "Redundancy client" to all other devices in the ring, before you close the ring.
Otherwise, there may be circulating data frames that will cause a failure in the network.
 If you reset to the factory settings, the ring port settings are also reset. With the appropriate attachment, a ring node
that was previously correctly configured can cause circulating frames and a loss of the data traffic.
 If you reset to the factory settings, the MRP role of the device is also reset. If you are operating a third-party device as
the redundancy manager in the ring, this may cause loss of the data traffic.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (11)

Integrating the SCALANCE X208 into the PROFINET IO system
 Prioritized startup
1
Open dialog box
The start-up times for
Prioritized Start-Up are
reduced to 2 seconds.
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If you configure MRP in a ring, you cannot use the
"prioritized startup" function in PROFINET applications
on the devices involved.
If you want to use the "prioritized startup" function,
then disable MRP in the configuration.
In the STEP 7 configuration, properties dialog of the
PROFINET interface > "Media redundancy" tab >
"MRP configuration" box, set the role to "Not node in
the ring" in the “mrpdomain1“ domain.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (12)

Integrating the SCALANCE X208 into the PROFINET IO system
 Configuring the topology
2
Select Topology tab
1
Open dialog box
Only for fiber-optic cable
You can interconnect
devices under "Partner
port" if:
• The port is connected
to the Ethernet subnet
• Other PROFINET
devices are connected
to a port on the subnet
• The devices support
topology configuration
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This area is only available if the device supports IRT
and no alternating partner is configured.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (12)

Integrating the SCALANCE X208 into the PROFINET IO system
 Configuring the topology - Continued
2
3
1
Open dialog box
Ensure that the setting for the local port and the partner port are identical.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (13)

Integrating the ET200S into the PROFINET IO system
Select IO
Device
1
Power Module
Output addresses,
band model
Input addresses,
band model
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Select IO
Modules
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (14)


Integrating the ET200S into the PROFINET IO system - Continued
Assigning a device name to the IO device ET 200S PN (Offline).
Double Click
Device names, IP addresses and MAC addresses must be assigned, so that an
IO device can be uniquely assigned to an IO controller.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (15)
 Integrating the ET200S into the PROFINET IO system - Continued
 Assigning a properties to PROFINET Interface.
For the effects on the reaction
time with a setting "> 1 m",
refer to the relevant manual.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (16)
 Integrating the ET200S into the PROFINET IO system - Continued
 Assigning a properties to PROFINET Interface
This tab displays the
 Synchronization tab
synchronization properties of
the IO controller.
See slide 16
Double Click
1
2
3
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (17)
 Integrating the ET200S into the PROFINET IO system - Continued
 Assigning a properties to PROFINET Interface
 IO Cycle Tab
Double Click
1
2
Send clock set in the
sync domain.
See slide 16
3
The update time can only
be changed when there are
no synchronized
PROFINET IO devices in
the IO system
Maximum watchdog
time: 1.92 seconds.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (17)
 Integrating the ET200S into the PROFINET IO system - Continued
 Assigning a properties to PROFINET Interface

Prioritized startup
Double Click
1
The check box can
only be selected if
the IO controller you
are using can
prioritize selected IO
devices during
startup.
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3
4
Within a PROFINET IO system, you can only prioritize
a certain maximum number of IO devices that depends
on the IO controller you are using.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (18)
 Integrating the ET200S into the PROFINET IO system - Continued
 Assigning a properties to PROFINET Interface.

Setting up the communication ports
This
section
shows the
name of the
local port.
The window shows the ports on all
devices that support the function
topology and are not yet connected
to the network
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (19)
 Integrating the ET200S into the PROFINET IO system - Continued
 Assigning a properties to PROFINET Interface.

Setting up the communication ports/ Disable autonegotation
Autonegotiation - operating
parameters of the connected
network are detected and the
data transmission speed and
transmission mode are optimally
set.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (20)
 Integrating the Non SIEMENS PROFINET IO Devices






Insert GSD files in Hardware catalog (see slide 12)
Insert the IO Devices form PROFINET IO -> Additional Field Devices See (slide 25)
Insert the necessary components in the configuration table (slide 25)
Adjust the IP address and the device name. (slide 26)
Set IO Cycle parameters (see slide 29)
Adjust Parameter tab
For first Input
module
Example refers to WAGO
System 750/753
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For the following
input modules
Configuration of a PROFINET IO System
Configuring the system with STEP 7 (20)
 Integrating the Non SIEMENS PROFINET IO Devices - Continued






Insert GSD files in Hardware catalog (see slide 12)
Insert the IO Devices form PROFINET IO -> Additional Field Devices See (slide 25)
Insert the necessary components in the configuration table (slide 25)
Adjust the IP address and the device name. (slide 26)
Set IO Cycle parameters (see slide 29)
Adjust Parameter tab
Example refers to
WAGO System
750/753
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (20)
 Integrating the Non SIEMENS PROFINET IO Devices - Continued






Insert GSD files in Hardware catalog (see slide 12)
Insert the IO Devices form PROFINET IO -> Additional Field Devices See (slide 25)
Insert the necessary components in the configuration table (slide 25)
Adjust the IP address and the device name. (slide 26)
Set IO Cycle parameters (see slide 29)
Adjust Parameter tab
A port that is physically present in a module but is not available as a
port submodule in the STEP 7 environment, is referred to as a default port.
Such ports are only displayed in the Topology Editor (i.e. they are not
in the configuration table) and can only be interconnected here.
Example refers to
WAGO System
750/753
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (21)
 Network transition: IE/PB - Link PN IO
The C-PLUG may
only be inserted or
removed when the
power is off. A
screwdriver can be
used as an aid.
In the case of changeover from use as a PROFINET IO device or
as a network transition, a reset to factory settings is always necessary.
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (21)
 Integration of IE/PB Link PN IO
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (21)
 Integration of IE/PB Link PN IO
1
2
3
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (20)
 Properties: IE/PB Link
the highest
unassigned
number
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Configuration of a PROFINET IO System
Configuring the system with STEP 7 (20)
 Integration of DP slaves
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Configuration of a PROFINET IO System
•
•
•
•
•
•
Switching the PG interface on the network card from the "Ethernet" type
Node initialization for the IO controller, i.e. assign the IP address to the IO
controller
Configure the PROFINET IO system by assigning the device names for all
IO devices
Transfer device names for each individual IO device to them one-by-one
Transfer hardware configuration of the overall system to the IO controller
Transfer S7 program to the IO controller
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Configuration of a PROFINET IO System
Exercise 1

Task: Create Profinet IO project with the following configuration:
1. PROFINET IO Controller
PS 307 5A
6ES7 307-1EA00-0AA0
CPU 315-2PN/DP 6ES7 315-2FJ14-0AB0 (V3.1)
SM323 16DI+16DO 6ES7 323-1BL00-0AA0
SM334 4AI+2AO/8b 6ES7 334-0CE01-0AA0
2. Industrial Switch SCALANCE X208
6GK5 208-0BA10-2AA3
4. PROFINET PROXY
Siemens IE/PB LINK PN IO
IE PB LINK
6GK 1 4115AB00
5. PROFIBUS DEVICES
Siemens ET200S Node
IM551-1HF
6ES7 151-1BA02-0AB0
PME
6ES7 138-4CA50-0AB0
2DI DC 24V HF 6ES7 131-4BB01-0AB0
2DI DC 24V HF 6ES7 131-4BB01-0AB0
2DO DC 24V HF 6ES7 132-4BB01-0AB0
2DO DC 24V HF 6ES7 132-4BB01-0AB0
3. PROFINET IO Devices
Siemens ET200S Node
IM551-3PN
6ES7 151-3BA23-0AB0
PME
6ES7 138-4CA50-0AB0
2DI DC 24V HF 6ES7 131-4BB01-0AB0
2DI DC 24V HF 6ES7 131-4BB01-0AB0
2DO DC 24V HF 6ES7 132-4BB01-0AB0
2DO DC 24V HF 6ES7 132-4BB01-0AB0
PHOENIX CONTAKT Node
FL-IL-BK
2878816
IB IL 24 DI 4-ME 2863928
IB IL 24 DO 4-ME 2863931
WAGO Node
WAGO SYSTEM 750-340
2DI(+6BIT I)
75x-400
2DO(+6BIT O)
75x-501
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Configuration of a PROFINET IO System
Exercise 1

Task: Create Profinet IO project with the following configuration:
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Configuration of a PROFINET IO System
Exercise 1

Task: Create PROFINET IO project with shown configuration
Industrial Ethernet: Ethernet(1) contains
the following network connections:
PROFIBUS: PROFIBUS(1) contains the
following network connections:
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Configuration of a PROFINET IO System
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Configuration of a PROFINET IO System
ОБЩИ ПОЛОЖЕНИЯ
Process
Image
Inputs
Application
Program
Process
Image
Outputs
GSDML
PROFIBUS
Configuration Tool
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Configuration of a PROFINET IO System