Download presentation
Presentation is loading. Please wait.
Published byTodd Wheeler Modified over 9 years ago
1
2500P-ECC1 Ethernet Communications Coprocessor
2
2500P-ECC1 Works with existing 2500 Series ® Processors and future models (not with 545/555 CPUs) Provides high-performance, high-volume Ethernet communications to the PLC – especially suitable for HMI/SCADA Intelligent data caching provides extremely fast access to PLC data Supports CAMP (CTI Ethernet Protocol), Modbus TCP, CTI Network Data Exchange REQUIRES NO PROGRAMMING Ethernet Communications Coprocessor 2
3
2500 Series ® Ethernet Communications across PLC backplane using 2572-A HMI DEVICES PROGRAMMING SCADA SYSTEMS OTHER PLCs PLANT NETWORK 3
4
2500 Series ® Ethernet Communications directly to the CPU HMI DEVICES PROGRAMMING SCADA SYSTEMS OTHER PLCs PLANT NETWORK 4
5
2500 Series ® Ethernet Communications using the 2500P-ECC1 PLANT NETWORK HMI DEVICES PROGRAMMING SCADA SYSTEMS OTHER PLCs 2500P-ECC1 5
6
CAMP (CTI ASCII Messaging Protocol) – Server and Client (includes multicast) – Allows communication with 2572, 2572-A, and 2500 Series ® Processors, HMI which support CAMP (or OPC) Open Modbus (Ethernet) – Modbus Server – Modbus Client Network Data Exchange – Shares data with other 2500P-ECC1 – Publish/ Subscribe Model – Communicates only when there is a change Standard Protocols 6
7
2500P-ECC1 Use the Windows configuration tool to make your application Download Configuration to ECC1 via Ethernet Stored on SD card Optionally – place configuration on SD card and install in 2500P-ECC1 How do I use it in my application? 7
8
2500P-ECC1 Transfer V100-V104 from ECC1-A to ECC1-B using network data exchange Transfer WX1-WX5 from ECC1-A directly to V201-V205 in PLC-B using CAMP Client to 2572 Ethernet port Transfer WX10-WX14 from ECC1-A directly to V210-V214 in PLC- B using CAMP client to CPU-B Ethernet port Demonstration CPU-A.140 ECC1- A.150 CPU-B.141 ECC1- B.151 2572.155 8
9
Demo Network Setup PLC-A CPU-A.140 ECC1- A.150 ACP1- A.152 2572-A.154 CPU-B.141 ECC1- B.151 2572.155 PLC-B IP 172.18.9.XXX MASK 255.255.252.0 GATE 172.18.8.1 Laptop.133 9
10
2500P-ECC1 Create project for ECC1-A (172.18.9.150) with host CPU-A (172.18.9.140) Create project for ECC1-B (172.18.9.151) with host CPU-B (172.18.9.141) Create the data exchange connection ECC1-A to ECC1-B – On ECC1-A Create a tag PRESSURES_TO_B pointing to V100-V104 in CPU-A Use data exchange to PUBLISH the tag PRESSURES_TO_B as ID=1 – On ECC1-B Create a tag PRESSURES_FROM_A pointing to V100-V104 in CPU-B Create a data exchange connection to ECC1-A at 172.18.9.150 Subscribe tagname PRESSURES_FROM_A to ID-1 Create the CAMP client connection ECC1-A to 2572 Ethernet port – On ECC1-A Create a tag TEMPERATURES_TO_B pointing to WX1-WX5 Create CAMP Client connection to 2572 Ethernet port (172.18.9.155) Add a request to Write V Memory beginning at remote address 201 Add the tagname TEMPERATURES_TO_B Create the CAMP client connection ECC1-A to CPU-B Ethernet port – On ECC1-A Create a tag FLOWS_TO_B pointing to WX10-WX14 Create CAMP Client connection to CPU-B Ethernet port (172.18.9.141) Add a request to Write V Memory beginning at remote address 210 Add the tagname FLOWS_TO_B Compile and download both projects Demonstration 10
Similar presentations
© 2025 SlidePlayer.com. Inc.
All rights reserved.