Kamis, 05 Mei 2011

LOGO SIEMENS S7200


SIEMENS LOGO! STARTER KIT


There are now three new LOGO! Starter Boxes for the cost-conscious entry-level user – individually equipped to suit your requirements. With these low-cost complete packages you can quickly learn the advantages and possibilities of the logic module.
This is because LOGO! has been in successful use worldwide in industry and trade for many years and performs both switching and control tasks considerably more easily and economically than conventional technology.


Advantages

Easiest configuration of switching programs
  • Directly on the device or on the PC using LOGO! Soft Comfort
  • Linking of functions by dragging and dropping
  • Offline simulation and online testing
  • Professional documentation with individual block names, professional printout of all necessary project information

    High functionality

  • 39 integrated functions
  • Linking of up to 200 function blocks
  • Display with contact and backlighting control, 4 lines with 12/16 characters/ line (depending on character set selection), Ticker-Text & Bar Graphs
  • Text, setpoint values and actual values can all be displayed in a single line and via bar graphs in a complex message text, together with I/O switching status
  • Parameters can be changed directly in simple ‘text-only’ message texts on the device
  • Modular expansion up to max. 24 DI/8 AI/16 DO/ 2AO
  • Communication modules for AS-Interface and instabus EIB, as well as digital modules and analog modules
  • New PWM and analog arithmetic (including error check) functions compliment the existing, powerful special functions: PI controller, ramp functionality and analog multiplexer
  • Comprehensive analog value referencing between function blocks allow for even more flexibility and control



LOGO! Starter Box 12 /24RC

  • LOGO! 12 /24RC* [can be expanded with a range of optional modules (not included in the starter kit).]
  • LOGO! USB PC cable  (For the transmission of control programs between a PC and the logic module.)
  • LOGO! Soft Comfort V 6.0 ( The simple software for creating, testing, simulating, changing, archiving and printing out control programs on a PC.)
  • LOGO! Manual, German (information on operation and application.)
  • LOGO! Screwdriver
  • LOGO! Computer-Based Training
  • All in the practical TANOS Systainer Type 2
    Note: Power Supply not included.






LOGO! Starter Box 230RC (for only Php 13,500.00!)

  • LOGO! 230 RC* [can be expanded with a range of optional modules (not included in the starter kit).]
  • LOGO! USB PC cable (For the transmission of control programs between a PC and the logic module.)
  • LOGO! Soft Comfort V 6.0 ( The simple software for creating, testing, simulating, changing, archiving and printing out control programs on a PC.)
  • LOGO! Manual, German (information on operation and application.)
  • LOGO! Screwdriver
  • LOGO! Computer-Based Training
  • All in the practical TANOS Systainer Type 2

LOGO! TD Starter Box

  • LOGO! 12 /24RCo* [can be expanded with a range of optional modules (not included in the starter kit).]
  • LOGO! USB PC cable (For the transmission of control programs between a PC and the logic module.)
  • LOGO! Soft Comfort V 6.0 ( The simple software for creating, testing, simulating, changing, archiving and printing out control programs on a PC.)
  • LOGO! Manual, German (information on operation and application.)
  • LOGO! Screwdriver
  • LOGO! Computer-Based Training
  • LOGO! TD (text display)
  • LOGO! TD interface cable
  • All in the practical TANOSSystainer Type 2

Monday, March 1, 2010

SIEMENS SITRAIN: SIMATIC PCS7 System Training

SITRAIN
Training Course by
Siemens for Automation

Skilled personnel produce real results in productivity, cost reductions and
process optimization.
SITRAIN™ delivers quality training that is effective, flexible, and value based.
Join us in our course offering on…
Process Control System
SIMATIC PCS7 System Training

Target Audience.
Controls engineers who are using PCS7 to develop a process system solution.

Prerequisites.
  • Basic automated controls experience
  • Industrial electronics experience
  • Solid computer skills
Profile.
This course is designed for controls engineers who are responsible for project design,
development and commissioning a PCS7 system. The goals of this course are to aggressively help
the student learn a basic system configuration and project design using standard system tools
and libraries. This course begins with the students defining a typical project and planning the
system architecture. The students will then actively build, test and debug a simple PCS7 process
system exploring the AS, ES and OS engineering environments. Hands-on lab exercises are used
to build experience with system engineering, process optimization and common troubleshooting.

Objectives.
  • Define the requirements and components of a PCS7 system solution.
  • Perform a basic system configuration.
  • Build a basic CFC using standard system tools and libraries.
  • Build a basic SFC using standard system tools and libraries.
  • Build a basic OS configuration using standard system tools and tag interfacing.
  • Build and test basic network communications including MPI, Ethernet and Profibus DP.
  • Perform a basic system check out using standard system tools and diagnostics.
  • Use the Help, Documentation and On-line tools.
  • Perform basic system administration and project management functions.
Topics.
  • PCS7 System Family Overview
  • PCS7 System
  • Defining a PCS7 Project
  • Class Project Definition
  •  Structure of our Project
  • SIMATIC Manager
  • Configuration on ES
  • Continuous Function Charts (CFC)
  • Sequential Function Chart (SFC)
  • Configuring the OS
Duration. 5 days

Course Date and Time: January 18 to 22, 2010 and
March 8 to 12, 2010
9:00 am to 5:00 pm

Course Fee
PHP 28,000.00
VAT inclusive
SIEMENS, INC.
14th Floor Salcedo Towers,
169 HV Dela Costa St., Salcedo
Village, Makati City

Communication Settings for Siemens S7-200 (CPU 212) and IDEC Touchscreens (5.7”HG2F, 10.4” HG3F, 12.1” HG4F)

        Communication Settings for
Siemens S7-200 (CPU 212)

and

IDEC Touchscreens
(5.7”HG2F, 10.4” HG3F, 12.1” HG4F)


 Introduction
The information here will help you configure IDEC touchscreens (5.7” HG2F, 10.4”
HG3F, or 12.1” HG4F) and the Siemens S7-200 PLC using S7-200(PPI) protocol. For
other supported Siemens PLCs and communication settings/range of addresses, please
refer to the WindO/I-NV2 manual (click the link below). Select “Host Interface,” then
Connection to a PLC.
http://www.idec.com/Products/ENG/PDF/manuals/WindOI/V282/English/mainmenue.pd
f  

        

Cable information between S7-200 (CPU 212) to HG2F/3F/4F
Part number:  HG9Z-2C155A
Wiring Diagram:

9 Pin Male Connector            25 Pin Male Connector


  2
Communication Settings

  3Available Addressing

  4Requirements for testing
1.  Cable part no. HG9Z-XCM1A (programming cable between PC and HG2F/3F/4F)
2.  Cable part no. HG9Z-2C155A (cable between Siemens S7-200 and HG2F/3F/4F)
3.  Cable part no. PC/PP1 ( programming cable between PC and Siemens S7-200 )
4.  HG9Y-ZSS2W (WindO/I-NV2 programming software for HG2F/3F/4F)
5. Siemens programming software called Step 7 Micro/WIN 32 (Windows-based )


Step 1: Software for Siemens S7-200 (Step 7 Micro/Win 32)  

1.  Siemens PLC used in this program: S7-200 CPU212
a)  Connect part number PC/PPI cable from PC to Siemens S7-200.
            The cable dip switches are set to 1=off, 2=on, 3=off, 4=off, 5=off.

2.  Launch Siemens programming software.

3.  Select PLC – Type.

4.  Next, click on the Read PLC button to read your PLC type.

5.  Click on the Communications button and the settings should appear.

            
  56.  Assign the Remote Address ( in this testing, #2 is assigned).

7.  Double click





8.  In the Access Path, select PC/PPI cable (PPI).
a)  Click the Properties button.




  69.  Local Connection:
a)   Assign the COM Port. Check your COM port before assigning the
number.

  

10. PPI :
a)  Assign the station address (#0 is assigned for this test)
b)  Set the transmission rate at 9.6kbps
c)  Highest node address is 31
d)  Click the OK button to exit from the Properties dialogue box

  

11. Now, create a simple logic by clicking on the normally open contact / output coil


  712. Download the project by selecting File-Download.



13. In the Download dialog box, follow all settings as shown in the image below and
then click the OK button to download.




Step 2: WindO/I-NV2 Software

1.  Connect programming cable to PC and HG2F/3F/4F
2.  Launch WindO/I-NV2
3.  Select File/New Project



  84.  Create a project name. In this example, the project name is Siemens HG program.
Select the Next button to continue. It will tell you to “create project.” Select the
OK button.




5.  Select the O/I and Model type.  For testing purposes, HG2F is selected.  Select the
Next button to continue.



6.  In the Host I/F Driver, Siemens is selected for manufacturer and S7-200(PPI) for
protocol. Click the OK button.



7.  In the Project Settings, select the Communication Interface tab.
-  Under the Interface Configuration, select Serial 1 Host Communication.
-  The Interface Settings are shown in the image below.

  9

7.  Next, select the Host/IF Driver tab.Make sure the settings in the Address [PLC],
Address [HG] and HSA match with the settings in the Siemens PLC. In this
example, the Address PLC and HG are assigned #2 and the HSA is # 31. These
are the settings from the PLC (see Step 7 & 10 above).

8.  Select OK button to continue.


  109.  In Base Screen 1, select Pilot Lamp device   and drop it on the screen.
Double click on the device to set the properties.  In the General tab under Operation
Mode, select No Blink.  

  

10. In the Trigger Condition tab, select While ON and for Device select I0.


 
  1111. Once the settings are done, select the OK button to exit.

12. DOWNLOAD the project to the HG2F/3F/4F.  Select Online-Download.

13. Now connect cable partnumber HG9Z-2C155A between the HG2F/3F/4F to
Siemens PLC.

If you are able to view the pilot lamp switching on/off based on the Input from the
PLC then the communication is successful. You may now continue with your project.