Siemens DP, S7-300F-2 PN manual Simatic RF180C ASM

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Industry Automation and Drive Technologies - SCE

Hardware and Software Required

1PC, operating system Windows XP Professional with SP2 or SP3/Vista 32 bit Ultimate and Business/Server 2003 SP2 with 600MHz (only XP)/1 GHz and 512MB (only XP)/1 GB RAM, free disk storage approx. 650 to 900 MB, MS Internet Explorer 6.0 and network card

2Software STEP 7 V 5.4

3PLC SIMATIC S7-300 with CPU 315F-2 PN/DP and at least one digital Input and output module Sample configuration:

-Power supply: PS 307 2A

-CPU: CPU 315F-2 PN/DP

-Digital inputs: DI 16x24V DC

-Digital outputs: DO 16x24V DC/0.5 A

4SIMATIC RF180C IM (interface module) RF310R or RF340R SLG (write/read device) Different transponder MDSs (Mobile Data System) of the type:

RF340T (8 KB) RF350T (32 KB) RF360T (64 KB)

ISO Moby D MDS D124 (112 bytes)

5Ethernet connection between PC, CPU 315F-2 PN/DP and RF180C

		2 STEP 7
	1 PC
		5 Ethernet Connection
	3 SIMATIC S7-300 with	4 SIMATIC RF180C (ASM)
	CPU 315F-2 PN/DP	4 SIMATIC RF180C (ASM)
	CPU 315F-2 PN/DP	with reader RF310R (SLG =
		with reader RF310R (SLG =
		write/read device)
		and transponder RF340T (MDS)

TIA Training Document	Page 6 of 65
Module E11
Status: 01/2010	Radio Frequency Identification (RFID) with SIMATIC S7-300F-2PN/DP and
RF180C

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Contents Module E11 Industry Automation and Drive Technologies SCEIndustry Automation and Drive Technologies SCE Preface Page S7’ ObjectivePrerequisites Simatic RF180C ASM Industry Automation and Drive Technologies SCE CPU Rfid Fundamentals Data structure of the German language UDTs is as follows DB47Page Industry Automation and Drive Technologies SCE Page Industry Automation and Drive Technologies SCE Industry Automation and Drive Technologies SCE Value range for the subnet screen form Industry Automation and Drive Technologies SCE MAC addressValue range for the IP address Value range for the address of the gateway routerIndustry Automation and Drive Technologies SCE Industry Automation and Drive Technologies SCE Industry Automation and Drive Technologies SCE Page Page Page Generating DB48 Open DB48, set up 1024 bytes Save and close DB48Generating DB49 Open DB49 and insert UDT261 and UDT271 Page Generating DB50 Open DB50 and insert UDT111 and UDT281 Save and close DB50 Generate DB47 Open DB47 and add UDT21 for each request Save and close DB47 Generating DB45 Open DB45 and insert UDT11 for each reader DB45, UDT11 is called for each readerDB47 request data block is referred to in DB45 Data view of DB45 to byteSave and close DB45 Page Set up in variables Set up OUT variables Generating Function FC11Save and close FC11 Writing data to the transponder Data View of the UDT21 Command OverviewCommand Reading data from the transponderInitialize Transponder Command NextCommand END Read out Reader statusSwitching the reader aerial on/off Transponder StatusExample of a command string in DB47 Data view of the UDT11 Variable Description Parameter commandDBaddress Value = 50 for Reader2 507 Industry Automation and Drive Technologies SCE ISO MDS Page Page Industry Automation and Drive Technologies SCE Control bits from Bit8 to Bit15 Variable DescriptionMoby U/D or RF300 Then, set up in variables Next, set up OUT variables Generating FB10Reader block Network 1 Command start Network 2 Reset Reader Industry Automation and Drive Technologies SCE Networks 4 to Page Supplementing the symbol table TaskGenerating FB1 Industry Automation and Drive Technologies SCE FB10 is inserted as a multi-instance block Industry Automation and Drive Technologies SCE Network Industry Automation and Drive Technologies SCE Network 4 to Page Open OB1 and call FB1 with DB1 Page Page Industry Automation and Drive Technologies SCE Symbol Table