ISO/IEC 24723:2006

INTERNATIONAL ISO/IEC
STANDARD 24723
First edition
2006-04-15

Information technology — Automatic
identification and data capture
techniques — EAN.UCC Composite bar
code symbology specification
Technologies de l'information — Techniques d'identification
automatique et de capture des données — Spécifications de
la symbologie des codes à barres du Composant EAN.UCC




Reference number
ISO/IEC 24723:2006(E)
©
ISO/IEC 2006

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ISO/IEC 24723:2006(E)
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ISO/IEC 24723:2006(E)
Contents Page
Foreword. v
Introduction . vi
1 Scope . 1
2 Normative references . 1
3 Terms, definitions, abbreviated terms and mathematical operators . 2
3.1 Terms and definitions. 2
3.2 Abbreviated terms . 3
3.3 Mathematical operators and notational conventions . 3
4 Symbol description. 3
4.1 Basic characteristics. 3
4.2 Summary of additional features . 4
4.3 Symbol structure . 5
4.4 Supported component combinations. 6
5 Source data encodation into a binary string .6
5.1 Encodation Method field . 7
5.1.1 Description of the data string. 7
5.2 Compressed data field . 7
5.2.1 Encodation Method field “10” — date and lot number . 7
5.2.2 Encodation Method field of “11” — AI 90. 8
5.2.3 Alpha encodation. 10
5.3 General-purpose data compaction field.11
5.3.1 Numeric encodation . 11
5.3.2 Alphanumeric encodation. 12
5.3.3 ISO/IEC 646 encodation . 13
5.3.4 Pad bits for the general-purpose data compaction field . 14
6 Error correction. 15
7 Linear component requirements. 15
7.1 General. 15
7.2 EAN/UPC linear components. 15
7.3 RSS family linear components . 16
7.4 UCC/EAN-128 components. 18
8 CC-A component requirements. 19
8.1 CC-A — General. 19
8.2 Overview of the CC-A component. 19
8.3 CC-A component structure. 20
8.3.1 Row and column combinations. 20
8.3.2 Row parameters . 21
8.3.3 Row Address Pattern assignments . 22
8.3.4 Codeword sequence. 22
8.3.5 High level data encodation . 22
8.4 Symbol character structure . 22
8.5 Base 928 compaction mode . 24
8.6 Reference decode algorithm . 25
8.6.1 Rejecting false 2D component candidates based on the linear component. 25
8.6.2 Rejecting false 2D component candidates within the linear component . 25
8.6.3 Aids to image-processing software. 26
9 CC-B component requirements. 26
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ISO/IEC 24723:2006(E)
10 CC-C component requirements. 27
11 Symbol dimensions . 28
11.1 Minimum width of a module (X). 28
11.2 Linear component height . 28
11.3 2D component row height (Y) . 28
11.4 Separator pattern and vertical separator bars. 28
11.5 Quiet zones. 29
12 Graphical requirements. 29
12.1 General . 29
12.2 Vertical alignment requirements . 29
12.3 Horizontal alignment requirements. 29
12.4 Human readable interpretation. 30
13 Symbol quality. 30
13.1 Linear component . 30
13.2 2D component . 30
13.3 Overall composite symbol grade. 30
13.4 Additional pass/fail criteria . 30
14 Transmitted data . 30
14.1 General data transmission techniques. 30
14.2 UCC/EAN-128 Composite symbols .31
14.3 RSS Composite symbols. 31
14.3.1 RSS Expanded component . 31
14.3.2 RSS-14 Family and RSS Limited components. 31
14.4 EAN/UPC Composite symbols. 31
14.4.1 EAN/UPC symbols in general . 31
14.4.2 EAN/UPC Composite symbols with add-ons . 32
14.5 Symbol separator character. 32
14.6 2D component escape mechanism character. 32
14.7 Linear-only transmission mode. 32
14.8 UCC/EAN-128 emulation. 32
14.9 Examples of transmitted data. 33
14.9.1 RSS-14 Composite symbol . 33
14.9.2 EAN/UPC Composite symbol. 33
14.9.3 EAN.UCC Composite symbol with variable length AI field. 33
14.9.4 EAN/UPC Composite symbol in UCC/EAN-128 emulation mode. 33
15 Application-defined parameters . 33
Annex A (normative) Symbology identifiers. 34
Annex B (normative) Parsing AI element strings. 36
Annex C (normative) 2D component escape mechanism . 38
Annex D (informative) Printing considerations . 39
Annex E (informative) Base 928 radix conversions . 42
Bibliography . 45

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ISO/IEC 24723:2006(E)
Foreword
ISO (the International Organization for Standardization) and IEC (the International Electrotechnical
Commission) form the specialized system for worldwide standardization. National bodies that are members of
ISO or IEC participate in the development of International Standards through technical committees
established by the respective organization to deal with particular fields of technical activity. ISO and IEC
technical committees collaborate in fields of mutual interest. Other international organizations, governmental
and non-governmental, in liaison with ISO and IEC, also take part in the work. In the field of information
technology, ISO and IEC have established a joint technical committee, ISO/IEC JTC 1.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of the joint technical committee is to prepare International Standards. Draft International
Standards adopted by the joint technical committee are circulated to national bodies for voting. Publication as
an International Standard requires approval by at least 75 % of the national bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. ISO and IEC shall not be held responsible for identifying any or all such patent rights.
ISO/IEC 24723 was prepared by Joint Technical Committee ISO/IEC JTC 1, Information technology,
Subcommittee SC 31, Automatic identification and data capture techniques.

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ISO/IEC 24723:2006(E)
Introduction
Composite symbologies are a class of bar code symbology, the principal distinguishing feature of which is that
they comprise two, or more, components, each of which is a distinct symbol, but which contain a set of related
data. Typically one component is a linear symbol containing primary data, which may be read on its own in
some areas of the application, and the other component(s) is a two-dimensional symbol containing
supplementary data which qualifies the primary message, and requiring all components to be read to extract
the complete message. The EAN.UCC Composite symbology is one such symbology. The use of the
symbology is intended to comply with the GS1 General Specifications.
An EAN.UCC Composite symbol consists of a linear component (encoding the item’s primary identification)
associated with an adjacent 2D component (encoding supplementary data, such as a batch number or
expiration date). The EAN.UCC Composite symbol always includes a linear component so that the primary
identification is readable by all scanning technologies, and so that 2D imagers can use the linear component
as a finder pattern for the adjacent 2D component. The EAN.UCC Composite symbol always includes a multi-
row 2D component, for compatibility with linear and 2D imagers, and with linear and rastering laser scanners.
EAN.UCC Composite symbols are intended for encoding identification numbers and data supplementary to
the identification in accordance with GS1 General Specifications. The administration of the numbering system
by EAN and UCC ensures that identification codes assigned to particular items are unique world-wide and that
they and the associated supplementary data are defined in a consistent way.

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INTERNATIONAL STANDARD ISO/IEC 24723:2006(E)

Information technology — Automatic identification and data
capture techniques — EAN.UCC Composite bar code
symbology specification
1 Scope
This International Standard defines the requirements for the EAN.UCC Composite symbology. It specifies the
EAN.UCC Composite symbology characteristics, data character encodation, symbol formats, dimensions and
print quality requirements, error correction rules, and reference decoding algorithms. For those linear and 2D
components of EAN.UCC Composite symbols with published symbology specifications, those published
specifications apply, except as specifically noted in this International Standard.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
ISO/IEC 646, Information technology — ISO 7-bit coded character set for information interchange
ISO/IEC 8859-1, Information technology — 8-bit single-byte coded graphic character sets — Part 1: Latin
alphabet No. 1
ISO/IEC 15415, Information technology — Automatic identification and data capture techniques — Bar code
print quality test specification — Two-dimensional symbols
ISO/IEC 15416, Information technology — Automatic identification and data capture techniques — Bar code
print quality test specification — Linear symbols
ISO/IEC 15417, Information technology — Automatic identification and data capture techniques — Bar code
symbology specification — Code 128
ISO/IEC 15420, Information technology — Automatic identification and data capture techniques — Bar code
symbology specification — EAN/UPC
ISO/IEC 15424, Information technology — Automatic identification and data capture techniques — Data
Carrier Identifiers (including Symbology Identifiers)
ISO/IEC 15438, Information technology — Automatic identification and data capture techniques — PDF417
bar code symbology specification
ISO/IEC 19762-1, Information technology — Automatic identification and data capture (AIDC) techniques —
Harmonized vocabulary — Part 1: General terms relating to AIDC
ISO/IEC 19762-2, Information technology — Automatic identification and data capture (AIDC) techniques —
Harmonized vocabulary — Part 2: Optically readable media (ORM)
ISO/IEC 24728, Information technology — Automatic identification and data capture techniques —
MicroPDF417 bar code symbology specification
GS1 General Specifications (GS1, Brussels, Belgium)
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ISO/IEC 24723:2006(E)
3 Terms, definitions, abbreviated terms and mathematical operators
3.1 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO/IEC 19762-1, ISO/IEC 19762-2 and
the following apply.
3.1.1
2D component
CC
two-dimensional portion of an EAN.UCC Composite symbol, which encodes supplemental information about
an item, such as its lot number or expiration date
3.1.2
AI element string
character string containing an application identifier followed by its associated data field
3.1.3
CC-A
2D component that is a structural variant of MicroPDF417
NOTE 1 CC-A components can be autodiscriminated from MicroPDF417 symbols, because CC-A components have a
unique Rotation of 32 between any two adjacent Row Address Patterns.
NOTE 2 CC-A is one of the three choices for the 2D component in a symbol encoded in the EAN.UCC Composite
symbology.
3.1.4
CC-B
2D component that is a MicroPDF417 symbol which begins with PDF417 codeword 920, indicating
conformance with this International Standard
NOTE CC-B is one of the three choices for the 2D component in a symbol encoded in the EAN.UCC Composite
symbology.
3.1.5
CC-C
2D component that is a PDF417 symbol which begins with PDF417 codeword 920, indicating conformance
with this International Standard
NOTE CC-C is one of the three choices for the 2D component in a symbol encoded in the EAN.UCC Composite
symbology.
3.1.6
linear component
linear portion of an EAN.UCC Composite symbol, which encodes the primary identification of an item
3.1.7
linkage flag
indicator encoded in an RSS or UCC/EAN-128 component to signal if a 2D component accompanies the
linear component
3.1.8
RAP Rotation
difference between the number designating a Center or Right Row Address Pattern and the number
designating the nearest Row Address Pattern to the left, in the same row of a MicroPDF417 symbol, or a
CC-A or CC-B component
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ISO/IEC 24723:2006(E)
3.1.9
Row Address Pattern
RAP
one of a set of patterns made up of three bars and three spaces occupying ten modules, that serve both as
start or stop patterns and as row indicators in a MicroPDF417 symbol, or a CC-A or CC-B component
3.1.10
separator pattern
pattern between the linear and 2D components of an EAN.UCC Composite symbol
3.1.11
symbol separator character
non-data character that is used to break the transmitted data string into separate transmissions, each
beginning with the appropriate symbology identifier prefix
3.2 Abbreviated terms
AI Application Identifier (see ISO/IEC 15418)
RSS Reduced Space Symbology
3.3 Mathematical operators and notational conventions
For the purposes of this document, the following mathematical operators apply.
div integer division operator which discards the remainder
mod integer remainder after integer division
The following ISO notational conventions are used.
0,2 a comma between digits separates the integer from the decimal fraction (e.g. 0,2 equals 2/10)
except when used as an (n,k) designation
12 345 a space between digits indicates factors of a thousand
4 Symbol description
4.1 Basic characteristics
An EAN.UCC Composite symbol consists of a linear component associated with an adjacent 2D component.
The characteristics of the EAN.UCC Composite symbology are:
a) Encodable character set:
1) Both linear and 2D components encode a subset of ISO/IEC 646, consisting of the upper and
lowercase letters, digits, and 21 selected punctuation characters.
2) The function character FNC1 and a Symbol Separator character.
b) Symbol character structure: various edge-to-similar-edge decodable symbol characters are used, in
accordance with the selected Linear and 2D components of the symbol.
c) Code type:
1) Linear component: continuous, linear bar code symbology.
2) 2D component: continuous, multi-row bar code symbology.
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ISO/IEC 24723:2006(E)
d) Maximum numeric data capacity (including implied application identifiers and calculated check digits
where appropriate, but not including any encoded FNC1 characters):
1) Linear component:
i) UCC/EAN-128: up to 48 digits
ii) EAN/UPC: UPC-A, EAN-8, or EAN-13 (12, 8, or 13 digits respectively)
iii) RSS Expanded: up to 74 digits, see note
NOTE The RSS Expanded data capacity depends on the encodation method. The maximum is 74 digits for
(01) + other AI's, the maximum is 70 digits for any AI's, and the maximum is 77 digits for (01) + (392x) + any AI's.
iv) Other RSS: 16 digits
2) 2D component:
i) CC-A: up to 56 digits
ii) CC-B: up to 338 digits
iii) CC-C: up to 2 361 digits
e) Error detection and correction:
1) Linear component: one check character for error detection.
2) 2D component: a fixed or variable number of Reed-Solomon error correction codewords, depending
upon the specific 2D component.
f) Character self-checking: yes.
g) Bi-directionally decodable: yes.
4.2 Summary of additional features
The following is a summary of additional EAN.UCC Composite symbology features:
a) Data compaction: the 2D components utilize a bit-oriented compaction mode, designed to encode
efficiently data using application identifiers.
b) Component linkage: the 2D component of each EAN.UCC Composite symbol contains a linkage flag,
which indicates to the reader that no data shall be transmitted unless the associated linear component is
also scanned and decoded. All linear components except EAN/UPC also contain an explicit linkage flag.
c) UCC/EAN-128 emulation: readers set to the UCC/EAN-128 emulation mode transmit the data encoded
within the EAN.UCC Composite symbol as if the data were encoded in one or more UCC/EAN-128
symbols.
d) 2D component escape mechanism: a mechanism to support future applications which require data
content beyond the ISO/IEC 646 subset encodable in the standard form of the EAN.UCC Composite
symbology.
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ISO/IEC 24723:2006(E)
4.3 Symbol structure
Each EAN.UCC Composite symbol consists of a linear component and a multi-row 2D component. The
2D component should nominally be printed with the same X dimension as the linear component. The
2D component is printed above the linear component (as defined in 12.2 and 12.3).
To facilitate printing the two components independently, 12.2 and 12.3 permit relative positional variation
between the two components. A bar code reader should not use the relative locations of the components
shown in the illustrations of EAN.UCC Composite symbols in this specification to predict the exact location of
the 2D component from the location of the linear component.
The linear component is one of:
a) a member of the EAN/UPC symbology (EAN-13, EAN-8, UPC-A, or UPC-E, which may include an add-on
symbol, in accordance with ISO/IEC 15420),
b) a member of the Reduced Space symbology family,
c) UCC/EAN-128.
The choice of linear component determines the name of the EAN.UCC Composite symbol, such as an
EAN-13 Composite symbol, or a UCC/EAN-128 Composite symbol.
The 2D component (abbreviated as CC) is chosen based on the selected linear component, and on the
amount of supplementary data to be encoded. The three 2D components, listed in order of increasing
maximum data capacity, are:
a) CC-A, a variant of MicroPDF417, designed for efficient encoding of supplemental application identifier
data,
b) CC-B, a MicroPDF417 symbol with a codeword of 920 in the first data codeword position as a linkage flag,
and denoting EAN.UCC data compaction, and
c) CC-C, a PDF417 symbol with a codeword of 920 in the first data codeword position as a linkage flag, and
denoting EAN.UCC data compaction.

Figure 1 — An RSS Limited Composite symbol
Figure 1 illustrates an RSS Limited Composite symbol which utilizes a 4-row CC-A component as its 2D
component. The RSS Limited component in Figure 1 identifies the product as “0113112345678906”, and the
CC-A component encodes the expiration date and lot number (as “1701061510A123456”). The human-
readable interpretation of the data in the symbols would be shown, if present, as “(01)13112345678906” and
“(17)010615(10)A123456” respectively.

Figure 2 — A UCC/EAN-128 Composite symbol
Figure 2 illustrates a UCC/EAN-128 Composite symbol which utilizes a 5-row CC-C compon
...