Omni-ID Service Bureau Reference Guide

Omni-ID Service Bureau Reference Guide Based on a Standard Label format Omni-ID office locations: US UK China India Germany D002093-02

TABLE OF CONTENTS INTRODUCTION... 3 LABEL MATERIAL OPTIONS... 3 CHIP ENCODING OPTIONS... 3 HEXADECIMAL SEQUENCING... 4 BARCODE OPTIONS SUMMARY... 8 OMNI-ID IQ 100 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 9 OMNI-ID IQ 150 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 10 OMNI-ID IQ 600 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 11 OMNI-ID IQ 400P LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 12 OMNI-ID IQ 800P LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 13 OMNI-ID PROX NG LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 14 OMNI-ID PROX LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 15 OMNI-ID EXO 600 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 16 OMNI-ID EXO 750 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 17 OMNI-ID EXO 800 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 18 OMNI-ID EXO 800P RIGID LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 19 OMNI-ID DURA 600 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 20 OMNI-ID DURA 1500 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 21 OMNI-ID DURA 3000 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 22 OMNI-ID FIT 210 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA:... 23 OMNI-ID FIT 100 LABEL (*) DATAMATRIX WITH HUMAN READABLE DATA:... 24 OMNI-ID FIT 200 LABEL DATAMATRIX WITH HUMAN READABLE DATA:... 25 OMNI-ID FIT 400 LABEL DATAMATRIX WITH HUMAN READABLE DATA:... 26 Page 2

INTRODUCTION The purpose of this reference guide is to assist customers and sales people during the sales discussion process and when completing the Omni-ID Tag Service Bureau Form, which is intended to capture the customers encoding and printing requirements. Tag commissioning utilizing a standard label is designed to be used as a menu card system. This means that the customer has the choice of a limited number of commonly used barcode symbologies and can input data that is specific to their application. The combination of print and barcode samples shown on this document are by definition standard service bureau options. Any combination that is not shown, or referenced in the barcode options summary table, is by definition a custom label design. The styling of the standard label designs in this document are intended as a guide and within reason layouts and fonts can be considered as dynamic. Final approval should always be sought from the customer prior to any production run, and OIDC should provide an accurate sample (either physical or a drawing) to seek approval. LABEL MATERIAL OPTIONS Omni-ID s Standard Service Bureau printing is offered with a rugged synthetic label stock as standard. Product type Hard tag (individual tags) IQ labels (reel loaded) Label description 99µ white PET decorative label CHIP ENCODING OPTIONS H3 & MR6 - The Omni-ID tag commissioning service programs data into the 96bit EPC section of the memory. This 96bits allows 24 hexadecimal characters to be programmed into the chip. Omni-ID also allows decimal sequencing of these 24 characters if required. M4QT - The Omni-ID tag commissioning service programs data into the 128bit EPC section of the memory. This 128bits allows 32 hexadecimal characters to be programmed into the chip. Omni-ID also allows decimal sequencing of these 32 characters if required. Page 3

HEXADECIMAL SEQUENCING Hexadecimal sequencing utilizes an extension of the regular 0-9 numbering system so that more data can be stored on a chip using less characters. In the case of Hexadecimal, the sequencing includes 0-9 then A-F, before returning to 0. It is important to ensure that the 2 numbering sequences are not mixed together; the simplest way to ensure this does not happen is to specify the start and end data for a sequence, and then cross reference with the total number of tags. Hexadecimal sequencing is best illustrated as a worked example: Decimal Hexadecimal representation 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 A 11 B 12 C 13 D 14 E 15 F 16 10 The EPC memory allocation allows the customer to specify data which is compliant with global standards such as DoD-96, GIAI-96, GID-96, GRAI-96, SGLN-96, SGTIN-96, and SSCC-96. This is of particular relevance when tags are being supplied into solutions already using RFID, or in open supply chain scenarios where interoperability between parties is required. Page 4

Important Note: Omni-ID provides the ability to encode the tag data to meet these standards but is not responsible for specifying compliant data sequences; it is the customer s responsibility to ensure compliance by providing a suitable start and end number to the programming sequence. Customers should contact EPC global or GS1 if they have questions regarding data compliance. The EPC global standards utilise a template approach to the data sequence, examples are provided below:- GID-96bit example: (General Identifier) Header General Manager Number Object Class Serial Number Data (bits) 8 28 24 36 Number of Hexadecimal characters 2 7 6 9 DoD 96bit example: (US Department of Defence) Header Filter Government Serial Number managed identifier Data (bits) 8 4 48 36 Number of Hexadecimal characters 2 1 12 9 GIAI-96 example: (Global Individual Asset Identifier) Header Filter Partition Company Prefix Individual Asset Reference Data (bits) 8 3 3 20-40 62-42 Number of Hexadecimal 2 1.5 5-10 15.5-10.5 characters See table below for values Filter Values GIAI Partition Table Type Binary value Partition value Company Prefix Individual Asset Reference All Others 000 Bits Digits Bits Digits Reserved 001 0 40 12 42 12 Reserved 010 1 37 11 45 13 Reserved 011 2 34 10 48 14 Reserved 100 3 30 9 52 15 Reserved 101 4 27 8 55 16 Reserved 110 5 24 7 58 17 Reserved 111 6 20 6 62 18 Page 5

GRAI-96 example: (Global Returnable Asset Identifier) Header Filter Partition Company Asset Type Serial Number Prefix Data (bits) 8 3 3 20-40 24-4 38 Number of Hexadecimal 2 1.5 5-10 6-1 9.5 characters See table below for values Filter Values (non-normative) GRAI Partition Table Type Binary value Partition value Company Prefix Asset Type All Others 000 Bits Digits Bits Digit Reserved 001 0 40 12 4 0 Reserved 010 1 37 11 7 1 Reserved 011 2 34 10 10 2 Reserved 100 3 30 9 14 3 Reserved 101 4 27 8 17 4 Reserved 110 5 24 7 20 5 Reserved 111 6 20 6 24 6 SGLN-96bit example: (Serialized Global Location Number) Header Filter Partition Company Location Serial Number Prefix Reference Data (bits) 8 3 3 20-40 21-1 41 Number of Hexadecimal 2 1.5 5-10 5.25-0.25 10.25 characters See table below for values Filter Values GRAI Partition Table Type Binary value Partition value Company Prefix Location Reference All Others 000 Bits Digits Bits Digit Reserved 001 0 40 12 1 0 Reserved 010 1 37 11 4 1 Reserved 011 2 34 10 7 2 Reserved 100 3 30 9 11 3 Reserved 101 4 27 8 14 4 Reserved 110 5 24 7 17 5 Reserved 111 6 20 6 21 6 Page 6

SGTIN-96bit example: (Serialized Global Trade Item Number) Header Filter Partition Company Item Serial Number Prefix Reference Data (bits) 8 3 3 20-40 24-4 38 Number of Hexadecimal 2 1.5 5-10 6-1 9.5 characters See table below for values Filter Values GRAI Partition Table Type Binary value Partition value Company Prefix Item Reference and Indicator Digit All Others 000 Bits Digits Bits Digit Retail Consumer Trade Item 001 0 40 12 4 1 Standard Trade Item Grouping 010 1 37 11 7 2 Single Shipping / Consumer Trade Item 011 2 34 10 10 3 Reserved 100 3 30 9 14 4 Reserved 101 4 27 8 17 5 Reserved 110 5 24 7 20 6 Reserved 111 6 20 6 24 7 SSCC-96bit example: (Serial Shipping Container Code) Header Filter Partition Company Serial Unallocated Prefix Reference Data (bits) 8 3 3 20-40 38-18 24 Number of Hexadecimal 2 1.5 5-10 9.5-4.5 6 characters See table below for values Filter Values GRAI Partition Table Type Binary value Partition value Company Prefix Serial Reference and Extension Digit All Others 000 Bits Digits Bits Digit Undefined 001 0 40 12 18 5 Logistical / Shipping Unit 010 1 37 11 21 6 Reserved 011 2 34 10 24 7 Reserved 100 3 30 9 28 8 Reserved 101 4 27 8 31 9 Reserved 110 5 24 7 34 10 Reserved 111 6 20 6 38 11 Page 7

BARCODE OPTIONS SUMMARY 1-D Code 128 1-D Code 128 2-D * 2-D * 2-D * Characters 24 hexadecimal OR decimal 8 hexadecimal OR decimal 24 hexadecimal OR decimal 8 hexadecimal OR decimal IQ 100 IQ 150 IQ 600 IQ 400P IQ 800P IQ 800G IQ 1200G Prox NG Prox Label Exo 600 Exo 750 Exo 800 Exo 800P Rigid Dura 600 Dura 1500 Dura 3000 Fit 210 up to 6 hexadecimal OR decimal Fit 100 Fit 200 Fit 400 Fit 400P * requires a high density 2-D barcode scanner Page 8

OMNI-ID IQ 100 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA : 99µ white PET decorative label SATO CL4NX Thermal Print Details Code 128 11 mm 12 (Bold) 12 (bold) 8 characters 7 (Bold) 24 characters Page 9

OMNI-ID IQ 150 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: 99µ white PET decorative label SATO CL4NX Code 128 4.5 mm 7 (Bold) 7 (Bold) Page 10

OMNI-ID IQ 600 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: 99µ white PET decorative label SATO CL4NX Code 128 10 mm 10 (Bold) 12 (Bold) Page 11

OMNI-ID IQ 400P LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: 99µ white PET decorative label SATO CL4NX Code 128 5 mm 6 (Bold) 6 (Bold) Page 12

OMNI-ID IQ 800P LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: 99µ white PET decorative label SATO CL4NX Code 128 7 mm 10 (Bold) 12 (Bold) Page 13

OMNI-ID PROX NG LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e Code 128 4 mm 7 (Bold) 7 (Bold) Page 14

OMNI-ID PROX LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e Code 128 4 mm 6 (Bold) 6 (Bold) Page 15

OMNI-ID EXO 600 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e Code 128 5 mm 6 (Bold) 8 (Bold) Page 16

OMNI-ID EXO 750 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e Code 128 10 mm 10 (Bold) 10 (Bold) Page 17

OMNI-ID EXO 800 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e Code 128 6 mm 7 (Bold) 24 characters 8 (Bold) 8 characters 8 (Bold) Page 18

OMNI-ID EXO 800P RIGID LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e Code 128 8 mm 8 (Bold) 8 (Bold) Page 19

OMNI-ID DURA 600 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e Code 128 6 mm 6 (Bold) 5 (Bold) Page 20

OMNI-ID DURA 1500 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e Code 128 6 mm 11 (Bold) 11 (Bold) Page 21

OMNI-ID DURA 3000 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e Code 128 4 mm 10 (Bold) 11 (Bold) Page 22

OMNI-ID FIT 210 LABEL 1-D CODE 128 & DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e Code 128 5 mm 8 (Bold) 8 (Bold) Page 23

OMNI-ID FIT 100 LABEL (*) DATAMATRIX WITH HUMAN READABLE DATA: (*) due to the physical size of this product, the service bureau label is a temporary solution to aid the implementation of pre-encoded tags. SATO GL408e 3 (Bold) Page 24

OMNI-ID FIT 200 LABEL DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e 3 (Bold) Page 25

OMNI-ID FIT 400 LABEL DATAMATRIX WITH HUMAN READABLE DATA: SATO GL408e 4 (Bold) Page 26