Printronix SL5000r MP manual

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Chapter 2 Software Migration Tools (SMT)

•UCC128 (64 bit) / UCC128_96 (96 bit): Copies data from a UCC-128 bar code with an application identifier (AI) in the range of 90-99 to an RFID tag. These AI’s are reserved for internal applications. The AI is not written to the RFID tag. Data written to the RFID tag is right justified and zero padded. Checksum data calculated by the printer is not encoded onto the tag. Bar code data beyond the 16th digit is truncated without an error message.

•EAN8 (64 bit) / EAN8_96 (96 bit): Copies data from an EAN8 bar code to an RFID tag. EAN 8+2 and EAN 8+5 variants are both supported. Data written to the RFID tag is right justified and zero padded. Checksum data calculated by the printer is not encoded onto the RFID tag.

•EAN13 (64 bit) / EAN13_96 (96 bit): Copies data from an EAN13 bar code to an RFID tag. EAN 13+2 is also supported but EAN 13+5 variant is not supported. Data written to the RFID tag is right justified and zero padded. Checksum data calculated by the printer is not encoded onto the RFID tag.

•UPC-A (64 bit) / UPC-A_96 (96 bit): Copies data from a UPC- A, UPC-A+2 or UPC-A+5 bar code to an RFID tag. Data written to the RFID tag is right justified and zero padded. Checksum data calculated by the printer is not encoded onto the RFID tag.

•EPC (64 bit) / EPC_96 (96 bit): This tool allows EPC data carried by a Code 3 of 9 bar code to be encoded onto an RFID tag. Data beyond the 16th digit is not allowable for an EPC and is truncated. Data must be numeric only.

•zGTIN (64 bit) / zGTIN_96 (96 bit), zEPC (64 bit) / zEPC_96 (96 bit), zUCC128 (64 bit) / zUCC_96 (96 bit), zEAN8 (64 bit) / zEAN8_96 (96 bit), zEAN13 (64 bit) / zEAN13_9 (96 bit), and zUPCA (64 bit) / zUPCA_96 (96 bit): These are all PPI/ ZGL emulation specific tools identical in function to those of their corresponding names above.

NOTE: SMTs are available only for RFID enabled printers. SMTs and CSTs are mutually exclusive: the loading of any CST will cause the SMTs to be ignored. For a description of CSTs, refer to the Remote Management Software Advanced Tool Kit User’s Manual.

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Contents Rfid Labeling Reference Manual Page Rfid Labeling Reference Manual Trademark Acknowledgements Table of Contents MP2 Rfid Table of Contents Table of Contents Rfid Smart Label Application Reference Notes OverviewOverview Overstruck Smart Labels What To Expect When Running Your Rfid ApplicationFactors Affecting Smart Label Performance Factors Affecting Smart Label PerformanceSupported Tag Types Smart Label CharacteristicsWhat To Expect When Running Your Rfid Application General Tag TypeSmart Label Characteristics Technology Tag ClassLabel Size How Printronix Makes It Easy How It WorksTransitioning From UCC/GTIN Applications Hardware/Infrastructure Considerations How It WorksContact Information Printronix Professional ServicesHow To Order More Smart Labels Printronix Customer Support CenterCorporate Offices Corporate OfficesUseful Industry Web Links Smart Label Development Rfid Control Menu Rfid Control MenuCont. from previous Cust Early Write Custom Run Cal Tag Type Rfid Control Menu ItemsRfid Reader Rfid Control Menu ItemsPage Page Page Label Retry Error HandlingMax Retry Error Tag Write CntTag Read Cnt Failed Tag CntTag Void Cnt Clear Tag StatOverstrike Style Read Tag&Eject Admin User Menu ItemsRead Tag PreErase Class 0+Custom Tag Admin User Menu ItemsAuto Retry Custom Write PwrCustom Tag Class Custom Read PwrCustom Tag Len Custom Rd TriesCustom Tag Pos Custom Min PowerCustom Run Cal Custom Start PosEPC Mgr Report Custom Max PowerRequesting An Rfid Report Non-RFID WarningStop Rfid PGL CommandsFormat RFWTAGLOCKnformatsizemem bank Bit Field+ LOCKnformatRfid PGL Commands Step and startdata parameters using DF command in the ExecuteIDF command in the Execute IDF command in the Execute modePrinted before it is reset to the starting value. By Repeated before it is incremented. The default repeatOptional incremental reset count parameter to Default, there is no reset count. The reset countRfwtag Example ~CREATESGTIN-64432 RFWTAG64Stop END ~EXECUTESGTIN-641 ~NORMAL Stop END ~EXECUTESGTIN-64 SGTIN-64 ~CREATESGTIN-64432 RFWTAG64Stop Alpha ~DF4*ABCDEStop END ~EXECUTESGTIN-64ICNT1500 ~NORMAL ~CREATESGTIN-96432 RFWTAG96RFWTAG96EPC Stop END ~EXECUTESGTIN-961 ~NORMAL~CREATESGTIN216 Stop Barcode~CREATESGTIN432 RFWTAGLOCKDF6D96EPCStop Rfrtag END ~EXECUTESGTINFCNT3Format RFRTAGUNLOCKnformatsizemem bank Bit Field+ UNLOCKnformatResult. Replace n with a Indicate dynamic dataField to store the read Number ranging from 1 toFormat Stop RFRTAG64Verify Format VERIFYfieldformatDASCIIheaderD DASCIITrailerDASCIIheader ASCIITrailerExample END ~EXECUTEVERIFY1 ~NORMAL ~CREATEVERIFY432NOMOTION RFRTAG64Stop RFRTAG64 64DF2H ~CREATEREADONLY432 RFRTAG64Rfid PGL Commands Example Write TagFormat HEX Write TagRfwrite LockRDI Read TagFormat RDIposition,length,format PositionRfid PPI/ZGL Commands Read TagFormat RT x, start, length, hex, retries, motion, reserved Start Rfid PPI/ZGL CommandsComments RetriesWrite or Read Rfid Format Write or Read Rfid FormatFormat RFa,b,c,d Calibrate Rfid Transponder Position Define EPC Data StructureFormat HRa,b Enable Rfid Motion Rfid SetupSpecify Rfid Retries for a Block Set Rfid Tag Password Format RZaHost Verification Host VerificationPPI/ZGL EPC Programming Examples Format HVx,y,ASCIIFO100,100A0N,60,60FN1FS //Print tag data in FN1 Rfid PPI/STGL Commands Escrk 1,a,b,D16,c.c Escrk 1,a,b,D24,c.c Rfid WritePPI/ZGL EPC Programming Examples Return Status Port Return Status PortSoftware Migration Tools SMT Tools ListTools List Page Selecting The Tools Selecting The ToolsError Messages Error MessagesControl Panel Error Messages Explanation Solution Rfid TAG Failed Rfid MAX RetryRfid TAG ERR Rfid Unlock CMDTroubleshooting the Rfid Encoder Symptom Solution TroubleshootingTroubleshooting Setup GuideMP2 Rfid New Coupler SystemAdjusting The Coupler Position New Coupler SystemGen Bit And 96 Bit EPC Data FormatsClass 1 Gen Class 0+, Class Zuma, and ClassPGL EPC Format Handling Selected Size of Data Based on Request from Result CommentLength Program 64 bit Pad 0s on right for 64 bit = 64 bit Example When 64 Bit Data Is Sent To a 96 Bit Tag PGLMoving From 64 Bit Tags To 96 Bit Tags Moving From 64 Bit Tags To 96 Bit TagsWhen 64 Bit Data Is Sent To a 96 Bit Tag ZGL When 64 Bit Data Is Sent To a 96 Bit Tag ZGL~NORMAL ~CREATETEST1216 RFWTAG64 END ~EXECUTETEST1 ~NORMAL ~CREATETEST1 RFWTAG64 Multiple Read/Write Commands On One Label~NORMAL ~CREATETEST1NOMOTION RFRTAG64 END ~EXECUTETEST1 ~NORMALSplitting the EPC Verify Command is not Rfid SpecificVerify Command is not Rfid Specific Customer ScenarioSimplest Solution Splitting the EPCUsing The Advanced Rfid Calibration Tag ProfilerTag Profiler Custom Tag Configurator Using The Advanced Rfid CalibrationAuto Inlay Locater Page 178424-001