 |
| Place of Origin: | GERMANY |
| Brand Name: | LENZE |
| Certification: | CE |
| Model Number: | E82EV751k4B |
| Minimum Order Quantity: | 1pcs |
|---|---|
| Packaging Details: | carton |
| Delivery Time: | in stock |
| Payment Terms: | T/T, Western Union, MoneyGram |
| Supply Ability: | 100pcs/week |
| LENZE: | LENZE | E82EV751k4B: | E82EV751k4B |
|---|---|---|---|
| Material: | Iron | Wire: | Wire |
| Dimension: | 90mm | Temperature: | 20-90 |
| Color: | Black |
| Conditions and parameters The following block parameters of the "Get_IM_Data" instruction are important for reading out the I&M data of the CPU |
Local2" (65349): The instruction always returns the I&M data of the CPU with redundancy ID 2. |
| LADDR: You enter the system constants or hardware identifier of the CPU at the LADDR parameter. You have the following options: |
IM_TYPE: Enter the I&M data number (for example "0" for I&M 0 data) at the IM_TYPE block parameter. |
| "Local1" (65149): The instruction always returns the I&M data of the CPU with redundancy ID 1. |
DATA: Area for storing the I&M data read (for example in a global data block). Store the I&M 0 data in an area of the data type "IM0_Data". |
This example shows you how to read out the I&M 0 data of a CPU 1513R-1 PN (redundancy
ID 1, 6ES7513-1RL00-0AB0).Proceed as follows to read out the I&M 0 data of the CPU with the redundancy ID 1:
1. Create a global data block to store the I&M 0 data.
2. Create a structure of the data type "IM0_Data" in the global data block. You can assign
any name to the structure ("imData" in this case)Create the "Get_IM_Data" instruction in the user program, for example in OB 1.
4. Connect the "GET_IM_DATA" instruction as followThe "Get_IM_Data" instruction has stored the I&M 0 data of the CPU with redundancy ID 1 in
the data block.
You can view the I&M 0 data online in STEP 7, for example with the "Monitor all" button in
the data block. The CPU in the example is a CPU 1513R-1 PN (6ES7513-1RL00-0AB0) with
the firmware version V2.6. The serial number of the CPU is 'S C-F9S840662018'.The R/H-CPUs have a front cover with a display and operating keys. The display of the
CPUs shows you the control and status information in various menus. You use operating
keys to navigate through the menus and make a variety of settings in the process.
Benefits
The display offers the following advantages:
● Reduced downtimes through diagnostic messages in plain text
● Less time required for commissioning and maintenance, shorter plant downtime.
● Shorter downtimes due to read/write access to force tables and read/write access to
watch tables.
The watch and force tables allow you to monitor and modify the actual values of
individual tags of a user program on the display. You can find additional information on
the watch and force tables in the section Test functions (Page 282) and in the STEP 7
online help.
● On site, an image (backup copy) of the functioning plant can be
– Backed up on the SIMATIC memory card of the CPU
– Restored from the SIMATIC memory card of the CPU
You do not require an additional PG/PC.
● Visualization of the SYNCUP system state with graphic and percentage progress display
Password protection for the display
In the properties of the CPUs, you configure a password in STEP 7 for display operation.
Local access protection is thus protected with a local password. Password protection can be
configured differently for each displayTo increase the service life of the display, the display switches off when the permitted
operating temperature is exceeded. When the display has cooled down again, it switches
back on automatically. When the display is switched off, the LEDs continue to show the
status of the CPUs.
