ISO/PAS 27145-1:2006

PUBLICLY ISO/PAS
AVAILABLE 27145-1
SPECIFICATION
First edition
2006-09-15

Road vehicles — Implementation of
WWH-OBD communication
requirements —
Part 1:
General information and use case
definition
Véhicules routiers — Mise en application des exigences de
communication WWH-OBD —
Partie 1: Informations générales et définition de cas d'usage




Reference number
ISO/PAS 27145-1:2006(E)
©
ISO 2006

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ISO/PAS 27145-1:2006(E)
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ISO/PAS 27145-1:2006(E)
Contents Page
Foreword. iv
Introduction . v
1 Scope . 1
2 Normative references . 1
3 Terms and definitions. 2
4 Symbols and abbreviated terms . 3
5 Conventions . 4
6 Document overview. 4
7 Use case description. 5
7.1 Overview . 5
7.2 Emissions-related use cases. 5
7.2.1 Use case summary . 5
7.2.2 Use case 1 – Information about the emissions-related OBD system state . 5
7.2.3 Use case 2 – Information about active and confirmed emissions-related malfunctions. 6
7.2.4 Use case 3 – Information related to diagnosis for the purpose of repair . 6
8 Vehicle On-Board Diagnostic (VOBD) . 7
8.1 VOBD definition . 7
8.2 VOBD system . 7
8.3 VOBD data set . 9
8.4 VOBD access method. 10
8.4.1 Overview . 10
8.4.2 VOBD data caching mode. 10
8.4.3 VOBD direct access mode . 13
Bibliography . 15

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ISO/PAS 27145-1:2006(E)
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies
(ISO member bodies). The work of preparing International Standards is normally carried out through ISO
technical committees. Each member body interested in a subject for which a technical committee has been
established has the right to be represented on that committee. International organizations, governmental and
non-governmental, in liaison with ISO, also take part in the work. ISO collaborates closely with the
International Electrotechnical Commission (IEC) on all matters of electrotechnical standardization.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International Standards
adopted by the technical committees are circulated to the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
In other circumstances, particularly when there is an urgent market requirement for such documents, a
technical committee may decide to publish other types of normative document:
⎯ an ISO Publicly Available Specification (ISO/PAS) represents an agreement between technical experts in
an ISO working group and is accepted for publication if it is approved by more than 50 % of the members
of the parent committee casting a vote;
⎯ an ISO Technical Specification (ISO/TS) represents an agreement between the members of a technical
committee and is accepted for publication if it is approved by 2/3 of the members of the committee casting
a vote.
An ISO/PAS or ISO/TS is reviewed after three years in order to decide whether it will be confirmed for a
further three years, revised to become an International Standard, or withdrawn. If the ISO/PAS or ISO/TS is
confirmed, it is reviewed again after a further three years, at which time it must either be transformed into an
International Standard or be withdrawn.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. ISO shall not be held responsible for identifying any or all such patent rights.
ISO/PAS 27145-1 was prepared by Technical Committee ISO/TC 22, Road vehicles, Subcommittee SC 3,
Electrical and electronic equipment.
ISO/PAS 27145 consists of the following parts, under the general title Road vehicles — Implementation of
WWH-OBD communication requirements:
⎯ Part 1: General information and use case definition
⎯ Part 2: Common emissions-related data dictionary
⎯ Part 3: Common message dictionary
⎯ Part 4: Connection between vehicle and test equipment
NOTE ISO/PAS 27145-4 will be extended as necessary due to introduction of additional communication media.

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ISO/PAS 27145-1:2006(E)
Introduction
This document set includes the communication between the vehicle's OBD systems and test equipment
implemented across vehicles within the scope of the WWH-OBD GTR (World Wide Harmonized On-Board
Diagnostics Global Technical Regulations).
It has been established in order to apply the unified diagnostic services (specified in ISO 14229-1).
To achieve this, it is based on the Open Systems Interconnection (OSI) Basic Reference Model in accordance
with ISO/IEC 7498-1 and ISO/IEC 10731, which structures communication systems into seven layers. When
mapped on this model, the services specified by ISO/PAS 27145 are broken into:
⎯ Diagnostic services (layer 7), specified in ISO/PAS 27145-3;
⎯ Presentation layer (layer 6), specified in ISO/PAS 27145-2;
⎯ Session layer services (layer 5), specified in ISO/PAS 27145-4;
⎯ Transport layer services (layer 4), specified in ISO/PAS 27145-4;
⎯ Network layer services (layer 3), specified in ISO/PAS 27145-4;
⎯ Data link layer (layer 2), specified in ISO/PAS 27145-4;
⎯ Physical layer (layer 1), specified in ISO/PAS 27145-4;
in accordance with Table 1.
Table 1 — Enhanced and legislated OBD diagnostic specifications applicable to the OSI layers
Implementation of WWH-OBD communication
Applicability OSI 7 layers
requirements, e.g. emissions-related UDS
Application (layer 7) ISO/PAS 27145-3 / ISO 14229-1
Presentation (layer 6) ISO/PAS 27145-2
Session (layer 5)
Seven layers
according to
Transport (layer 4)
ISO/IEC 7498-1 and
ISO/IEC 10731
Network (layer 3) ISO/PAS 27145-4
Data link (layer 2)
Physical (layer 1)

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PUBLICLY AVAILABLE SPECIFICATION ISO/PAS 27145-1:2006(E)

Road vehicles — Implementation of WWH-OBD communication
requirements —
Part 1:
General information and use case definition
1 Scope
ISO/PAS 27145 is intended to become the single communication standard for access to OBD-related
information. To allow for a smooth migration from the existing communication standards to this future
worldwide standardized communication standard, the initial communication concept will be based on CAN. In
a second step, ISO/PAS 27145 will be extended to define the world-wide harmonized OBD communication
standard based on existing industry communications standards (e.g. Internet Protocol) over Ethernet. Due to
the usage of standard network layer protocols, future extensions to optional physical layers (e.g. wireless) are
possible.
This part of ISO/PAS 27145 gives an overview of the structure and the partitioning of the different parts of this
standard, and shows the relation between the parts. In addition, it outlines the use case scenarios where the
ISO/PAS 27145 document set will be used. All terminology that is common throughout the ISO/PAS 27145
document set is also outlined here.
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 7498-1, Information technology — Open Systems Interconnection — Basic Reference Model — Part 1:
The Basic Model
ISO/IEC 10731, Information technology — Open Systems Interconnection — Basic Reference Model —
Conventions for the definition of OSI services
ISO 14229-1, Road vehicles — Unified diagnostic services (UDS) — Part 1: Specification and requirements
ISO/PAS 27145-2, Road vehicles — Implementation of WWH-OBD communication requirements — Part 2:
Common emissions-related data dictionary
ISO/PAS 27145-3, Road vehicles — Implementation of WWH-OBD communication requirements — Part 3:
Common message dictionary
ISO/PAS 27145-4, Road vehicles — Implementation of WWH-OBD communication requirements — Part 4:
Connection between vehicle and test equipment
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ISO/PAS 27145-1:2006(E)
3 Terms and definitions
For the purposes of this document the terms and definitions in ISO 14229-1 and the following terms apply.
3.1
Calibration Identification
CALID
identification code for a specific software/calibration contained in a server/ECU
NOTE If regulations require calibration identifications for emissions-related software, those are reported in a
standardized format as specified in ISO/PAS 27145-2. Additional details are included in the WWH-OBD GTR.
3.2
Class A, B1, B2, C malfunctions
definitions that apply to emissions-related OBD systems
NOTE Class A, B1, B2 or C are attributes of a DTC. These attributes characterize the impact of a malfunction on
emissions or on the OBD system's monitoring capability according to the requirements of the WWH-OBD GTR. Additional
details are included in ISO/PAS 27145-3.
3.3
Continuous-Malfunction Indicator
malfunction indicator showing a steady indication at all times while the key is in the on (run) position with the
engine running (ignition ON – engine ON)
3.4
Continuous-Malfunction Indicator Counter
counter which conveys the amount of time during which the OBD system has been operated while a
Continuous-MI is activated
NOTE Additional details are included in the WWH-OBD GTR.
3.5
Calibration Verification Number
CVN
server/ECU calculated verification number of a calibration identification number to verify the integrity of the
software/calibration contained in a server/ECU
NOTE If regulations require calibration identifications for emissions-related software, those are reported in a
standardized format as specified in ISO/PAS 27145-2. Additional details are included in the WWH-OBD GTR.
3.6
discriminatory display
applying to emissions-related OBD systems, requires the MI to be activated according to the class in which a
malfunction has been classified
NOTE Additional details are included in the WWH-OBD GTR.
3.7
Global Technical Regulation
GTR
(See 3.15.)
3.8
malfunction
failure or deterioration of a vehicle or engine system or component, including the OBD system
NOTE The WWH-OBD GTR will specifically identify what conditions are considered to be malfunctions.
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ISO/PAS 27145-1:2006(E)
3.9
Malfunction Indicator
MI
indicator which clearly informs the driver of the vehicle in the event of a malfunction
NOTE Additional details are included in the WWH-OBD GTR.
3.10
Malfunction Indicator Counter
counter which conveys the amount of time during which the OBD system has operated while a malfunction is
active
NOTE Additional details are included in the WWH-OBD GTR.
3.11
non-discriminatory display
applying to emissions-related OBD systems, requires only a single type of MI activation
NOTE Additional details are included in the WWH-OBD GTR.
3.12
On-Board Diagnostics
OBD
system that monitors some or all computer input and control signals
NOTE Signal(s) outside of the predetermined limits imply a fault in the system or in a related system.
3.13
Vehicle Identification Number
VIN
identification number specific and unique to each vehicle following the applicable legal provisions of each
national/regional authority
3.14
Vehicle On-Board Diagnostics
VOBD
provides a single access point for external test equipment to retrieve all data of the OBD system
3.15
World Wide Harmonized – On-Board Diagnostics Global Techical Regulation
WWH – OBDGTR
defines the use-cases and requirements for OBD systems
NOTE See Reference [1] in the Bibliography for further details regarding the WWH-OBD GTR.
4 Symbols and abbreviated terms
CALID Calibration Identification
CVN Calibration Verification Number
DTC Diagnostic Trouble Code
ECM Engine Control Module
ECU Electronic Control Unit
GTR Global Technical Regulations
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ISO/PAS 27145-1:2006(E)
MI Malfunction Indicator
OBD On-Board Diagnostics
UDM Urea Dosing Module
VIN Vehicle Identification Number
VOBD Vehicle On-Board Diagnostics
WLAN Wireless Local Area Network
WWH-OBD Word Wide Harmonized On-Board Diagnostics
WWH-OBD GTR World Wide Harmonized On-Board Diagnostics Global Technical Regulation
5 Conventions
ISO/PAS 27145 is based on the conventions discussed in the O.S.I. Service Conventions (ISO/IEC 10731:1994)
as they apply for diagnostic services.
6 Document overview
The ISO/PAS 27145 document set provides an implementer with all documents and references required to
support the implementation of legislated on board diagnostics in accordance with the requirements set forth in
WWH-OBD GTR (Global Technical Regulation).
⎯ ISO/PAS 27145-1: General information and use case definitions (this part), provides an overview of the
document set along with the use case definitions and a common set of resources (definitions, references)
for use by all subsequent parts.
⎯ ISO/PAS 27145-2: Common emissions-related data dictionary, provides data definitions for emissions-
related legislated diagnostics (see also Note below).
⎯ ISO/PAS 27145-3: Common message dictionary, provides the message implementation details from
ISO 14229 – UDS to support the required legislated OBD.
⎯ ISO/PAS 27145-4: Connection between vehicle and test equipment, defines the details necessary to
implement the communication between the vehicle's OBD systems and test equipment including the
definition/reference of physical layers, data link layers, network layer, transport layer and session layer.
This part of the standard will be extended as necessary due to introduction of additional communication
media.
NOTE Additional parts of this standard will be introduced as necessary to consider further OBD systems not yet
covered by this standard.
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ISO/PAS 27145-1:2006(E)
7 Use case description
7.1 Overview
The OBD system is required to make available vehicle diagnostic information under several different use
cases as specified by the WWH-OBD GTR (Global Technical Regulation). These use cases provide the
implementer with guidance in the implementation of the VOBD (described later in this document), and
methodology used on the vehicle to make the required data available. This part of the standard will be
extended as necessary due to introduction of additional WWH-OBD GTR use cases (i.e. non emissions-
related).
7.2 Emissions-related use cases
7.2.1 Use case summary
The following is a summary of the use cases applicable to emissions-related OBD systems:
⎯ Use case 1: Information about the emissions-related OBD system state – The purpose of this
information package is to provide the minimum data set specified as necessary by the WWH-OBD GTR
to obtain the vehicle, or engine state with respect to its emission performance as specified in the WWH-
OBD GTR. A typical use of this information package may be a ‘Roadside Check’ performed by an
enforcement authority.
⎯ Use case 2: Information about active emissions-related malfunctions – The purpose of this
information package is to provide access to the expanded data set specified as necessary by the WWH-
OBD GTR to determine vehicle readiness and characterise the malfunctions detected by the OBD system.
A typical use of this information package may be a periodic inspection by enforcement authorities.
⎯ Use case 3: Information related to diagnosis for the purpose of repair – The purpose of this
information package is to provide access to all OBD data required by the WWH-OBD GTR and available
from the OBD system. A typical use of this information package may be the Diagnostic Servicing of the
vehicle or system in a workshop environment.
Detailed definition of each data item listed in the use cases can be found in the emissions-related module of
the WWH-OBD GTR.
7.2.2 Use case 1 – Information about the emissions-related OBD system state
This use case provides an enforcement agency with the Malfunction Indication status and associated vehicle
system data (e.g. MI counter, readiness status etc.).
The OBD system shall provide the data items as required by the emissions-related module of the WWH-OBD
GTR and in the format as specified in ISO/PAS 27145-2 for the external roadside check test equipment to
assimilate and provide the enforcement agency with the following information.
a) The WWH-OBD GTR (and revision) number.
b) Discriminatory / Non-Discriminatory display strategy.
c) The VIN (Vehicle Identification Number).
d) Presence of a Continuous-MI.
e) The readiness status of the OBD system.
f) The number of engine operating hours since the Malfunction Indicator has been activated (Continuous-MI
counter).
This information shall be read-only access (i.e. no clearing) within the context of use case 1.
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ISO/PAS 27145-1:2006(E)
7.2.3 Use case 2 – Information about active and confirmed emissions-related malfunctions
This information will provide any inspection station with a subset of engine related OBD data including the
Malfunction Indicator status and associated data (MI counters), a list of active/confirmed malfunctions of
classes A and B and associated data (e.g. B1-counter).
The OBD system shall provide the data items as required by the emissions-related module of the WWH-OBD
GTR and in the format as specified in ISO/PAS 27145-2 for the external inspection test equipment to
assimilate the data and provide an inspector with the following information:
a) The WWH-OBD GTR (and revision) number.
b) Discriminatory/non-discriminatory display strategy.
c) The VIN (Vehicle Identification Number).
d) The Malfunction Indicator status.
e) The Readiness status of the OBD system.
f) The number of warm-up cycles and number of engine operating hours since recorded OBD information
was last cleared.
g) The number of engine operating hours since the Malfunction Indicator has been activated (Continuous-MI
counter).
h) The cumulated operating hours with a Continuous-MI (cumulative Continuous-MI counter).
i) The confirmed and active DTCs for Class A malfunctions.
j) The confirmed and active DTCs for Classes B (B1 and B2) malfunctions.
k) The confirmed and active DTCs for Class B1 malfunctions.
This information shall be read only access (i.e. no clearing) within the context of use case 2.
7.2.4 Use case 3 – Information related to diagnosis for the purpose of repair
This information will provide repair technicians with all OBD data specified in the WWH-OBD GTR (e.g.
Freeze Frame information).
The OBD system shall provide the data items as required by the emissions-related module of the WWH-OBD
GTR and in the format as specified in ISO/PAS 27145-2 for the external repair test equipment to assimilate
the data and provide a repair technician with the following information:
a) The WWH-OBD GTR (and revision) number.
b) The VIN (Vehicle Identification Number).
c) The Malfunction Indicator status.
d) The Readiness status of the OBD system.
e) The number of engine operating hours since the Malfunction Indicator has been activated (Continuous-MI
counter).
f) The confirmed and active DTCs for Class A malfunctions.
g) The confirmed and active DTCs for Classes B (B1 and B2) malfunctions.
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ISO/PAS 27145-1:2006(E)
h) The confirmed and active DTCs for Class B1 malfunctions and the number of engine operating hours
from the B1 counters.
i) The confirmed and active DTCs for Class C malfunctions.
j) The pending DTCs and their associated class.
k) The previously active DTCs and their associated class.
l) Real-time information on OEM selected and supported sensor signals, internal parameters and output
signals.
m) The freeze frame data.
n) The software CALID(s) [calibration identification(s)].
o) The CVN(s) [calibration verification number(s)].
The OBD system shall clear all the recorded information related to malfunctions of the engine system
and related data (operating time information, freeze frame, etc.) in accordance with the provisions of the
WWH-OBD GTR, when this request is provided via the external repair test equipment according to
ISO/PAS 27145-2.
8 Vehicle On-Board Diagnostic (VOBD)
8.1 VOBD definition
The following specifies general VOBD information including but not limited to minimum functionality, system
data storage, and application examples. The information provided in this standard should be used as a
reference framework for VOBD system implementers.
The VOBD consists of:
⎯ The “VOBD system” which consists of the individual OBD system(s) (e.g. ECUs),
⎯ A “single VOBD access method” as required by the WWH-OBD GTR to provide access to the VOBD
data set and all other diagnostic functions,
⎯ The “VOBD data set” which is defined as a limited set of data provided by the OBD systems to fulfil the
requirements of the various use cases as defined in the WWH-OBD GTR.
The VOBD will always support the same request and response behaviour when communicating with the
external test equipment.
8.2 VOBD system
The VOBD system shall be implemented in the vehicle's electrical architecture and shall meet the
communication performance requirements as specified in the WWH-OBD GTR.
The VOBD system provides the flexibility for the extension of the use of the ISO/PAS 27145 document set to
support (pre-processed) burst access data (e.g. add the wireless access to emissions-related OBD data
defined in use case 1 in the future).
One of the ECU(s) of the VOBD system may act as a Gateway between the external test equipment and the
other ECU(s) of the VOBD system in case the O.S.I. layers 1 through 4 of the in-vehicle network are different
from those defined within this document.
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ISO/PAS 27145-1:2006(E)
The VOBD system may be (a) dedicated ECU(s), or be provided by another vehicle ECU or system. It is
possible, that the VOBD functionality may exist as a ‘Software only’ module in a vehicle system. The VOBD
system provides the flexibility to support not only emissions-related OBD systems but also other legislated
vehicle systems that may or may not be under consideration today.
The following are examples for the implementation of the VOBD system in the vehicle's network.
Figure 1 shows an implementation example of the VOBD system in a Gateway ECU and the Engine ECU
(ECU 1). The Gateway ECU is not part of the e.g. emissions-related OBD system.
Emissions-related OBD system
1 VOBD Urea Dosing
Engine ECU Module . ECU n
(ECU 1) (ECU 2)
External Test VOBD in
Equipment Gateway ECU

Key
1 connection according to ISO/PAS 27145-4
Figure 1 — Implementation example of VOBD in a Gateway ECU and Engine ECU
Figure 2 shows an implementation example of the VOBD system in an Engine ECU (ECU 1) which is part of
the e.g. emissions-related OBD system. In this case the Engine ECU (ECU 1) provides all VOBD related data
to the external test equipment.
Emissions-related OBD system
VOBD Urea Dosing
...
Engine ECU Module ECU n
(ECU 1) (ECU 2)
1
2
External Test
Equipment

Key
1 connection according to ISO/PAS 27145-4. ECU 2 will not respond to requests from the external test equipment for
VOBD-related data, therefore no data needs to be routed through ECU 1
2 external test equipment directly connected to in-vehicle network if in-vehicle network is compatible with
ISO/PAS 27145-4
Figure 2 — Implementation example of VOBD in an Engine ECU
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ISO/PAS 27145-1:2006(E)
Figure 3 shows an implementation example of the VOBD system in an Engine ECU (ECU 1) and a Urea
Dosing Control Module (ECU 2). Both are part of the e.g. emissions-related OBD system and will respond to
the request for VOBD-related data from the external test equipment.

Emissions-related OBD system
VOBD
VOBD
Urea Dosing
...
Engine ECU ECU n
Module
(ECU 1)
(ECU 2)
1
2
External Test
Equipment

Key
1 connection according to ISO/PAS 27145-4. All VOBD-related data from ECU 2 is routed through ECU 1 to the
external test equipment
2 external test equipment directly connected to in-vehicle network if in-vehicle network is compatible with
ISO/PAS 27145-4
Figure 3 — Implementation example of VOBD in an Engine ECU and a Urea Dosing Control Module
IMPORTANT — It is the manufacturer's responsibility to either implement the (e.g. emissions-related)
OBD system in a single ECU or distribute the implementation across multiple networked ECUs.
8.3 VOBD data set
The VOBD data is defined as all data available from the VOBD system. Depending on the various use cases,
the OBD data may be provided by the individual OBD systems (e.g. emissions-related ECU(s)) or may be pre-
collected.
Therefore two (2) types of data are defined:
a) Burst access data is defined as a l
...