Electrically propelled road vehicles — Vocabulary

This document establishes a vocabulary of terms and the related definitions used in ISO/TC 22/SC 37 standards.

Véhicules routiers électriques — Vocabulaire

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31-Mar-2019
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9092 - International Standard to be revised
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TECHNICAL ISO/TR
REPORT 8713
Second edition
2019-04
Electrically propelled road vehicles —
Vocabulary
Véhicules routiers électriques — Vocabulaire
Reference number
ISO/TR 8713:2019(E)
©
ISO 2019

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ISO/TR 8713:2019(E)

COPYRIGHT PROTECTED DOCUMENT
© ISO 2019
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Published in Switzerland
ii © ISO 2019 – All rights reserved

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ISO/TR 8713:2019(E)

Contents Page
Foreword .iv
Introduction .v
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 1
4 Abbreviations.25
Annex A (informative) Topic specific list .27
Bibliography .37
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ISO/TR 8713:2019(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.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular, the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www .iso .org/directives).
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. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www .iso .org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation of the voluntary nature of standards, the meaning of ISO specific terms and
expressions related to conformity assessment, as well as information about ISO's adherence to the
World Trade Organization (WTO) principles in the Technical Barriers to Trade (TBT) see www .iso
.org/iso/foreword .html.
This document was prepared by Technical Committee ISO/TC 22 Road vehicles, Subcommittee SC 37
Electrically propelled road vehicles.
This edition of ISO/TR 8713 cancels and replaces the first edition (ISO 8713:2012), which has been
technically revised and includes the following main changes:
— addition of all terms and definitions from ISO/TC 22/SC 37 standards;
— addition of source information for terms/definitions not developed in ISO/TC 22/SC 37;
— provision of information on standards using the relevant term and defining a master;
— adaptation of structure to the ISO/IEC Directives Part 2, 2016 edition;
— provision of a list of abbreviations used in this document.
Any feedback or questions on this document should be directed to the user’s national standards body. A
complete listing of these bodies can be found at www .iso .org/members .html.
iv © ISO 2019 – All rights reserved

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ISO/TR 8713:2019(E)

Introduction
This document establishes a vocabulary of terms and the related definitions used in ISO standards for
electrically propelled road vehicles.
It provides support for the development of new standards and for the review of existing standards.
This document lists terms as defined in ISO/TC 22/SC 37 publications. For each term, the master
publication is assigned based on an ISO/TC 22/SC 37 decision. Other publications of ISO TC 22/SC 37
may contain definitions for those terms as well. This document replicates the definition for the term
from the master publication without any change. The master publication and the other publications are
listed with each term.
ISO/TC 22/SC 37 decided that project leaders of projects using the term should align themselves with
the content of the definition under the leadership of the project leader from the master publication.
ISO/TC 22/SC 37 prioritizes a consistent use of definitions for terms.
The terms and definitions are listed in alphabetical order. A topic specific list is given in Annex A.
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TECHNICAL REPORT ISO/TR 8713:2019(E)
Electrically propelled road vehicles — Vocabulary
1 Scope
This document establishes a vocabulary of terms and the related definitions used in ISO/TC 22/SC 37
standards.
2 Normative references
There are no normative references in this document.
3 Terms and definitions
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— IEC Electropedia available at http: //www .electropedia .org/
— ISO Online browsing platform: available at https: //www .iso .org/obp
3.1
acceleration ability (v1 to v2)
shortest time required to accelerate the vehicle from speed v1 to speed v2
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 8715:2001.
3.2
alignment
relative position of primary to secondary device
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19363:2017.
3.3
alignment check
confirmation that the primary and secondary devices are properly positioned relative to each other
Note 1 to entry: Proper positioning is done to assure sufficient system functionality (e.g. system efficiency, EMF/
EMC limits, safety requirements etc.).
[SOURCE: IEC 61980-2]
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19363:2017.
3.4
applicable driving test
ADT
single driving test schedule which is specified for each region
EXAMPLE Chassis dynamometer test cycle for light-duty vehicles in Japan (JC08), New European Driving
Cycle (NEDC), Urban Dynamometer Driving Schedule (UDDS).
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 23274-2:2012, also defined in ISO 23274-1:2013 and
ISO 23828:2013.
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ISO/TR 8713:2019(E)

3.5
auxiliary electric system
vehicle system, other than for vehicle propulsion, that operates on electric energy
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 6469-2:2018 and
ISO 6469-4:2015.
3.6
balance of electric circuit
remaining section of an electric circuit when all electric power sources that are energized (RESS and
fuel cell stacks) are disconnected
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 17409:2015.
3.7
basic insulation
insulation of hazardous live parts which provides basic protection
Note 1 to entry: This concept does not apply to insulation used exclusively for functional purposes.
Note 2 to entry: Where insulation is not provided by solid insulation only, it is complemented with protective
barriers or protective enclosures to prevent access to live parts in order to achieve basic protection.
[SOURCE: IEC 60050-195:1998, 195-06-06, modified — “hazardous-live-parts” written as “hazardous
live parts”]
Note 3 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 17409:2015 and
ISO/PAS 19363:2017.
3.8
basic protection
protection against electric shock under fault-free conditions
[SOURCE: IEC 60050-195:1998, 195-06-01]
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018.
3.9
battery control unit
BCU
electronic device that controls, manages, detects or calculates electric and thermal functions of
the battery system and that provides communication between the battery system and other vehicle
controllers
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 12405-4:2018.
3.10
battery pack
energy storage device that includes cells or cell assemblies normally connected with cell electronics,
power supply circuits and overcurrent shut-off device, including electrical interconnections, interfaces
for external systems
Note 1 to entry: Examples of external systems are cooling, voltage class B, auxiliary voltage class A and
communication.
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO 12405-4:2018.
3.11
battery system
energy storage device that includes cells or cell assemblies or battery pack(s) as well as electrical
circuits and electronics
Note 1 to entry: Battery system components can also be distributed in different devices within the vehicle.
2 © ISO 2019 – All rights reserved

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ISO/TR 8713:2019(E)

Note 2 to entry: Examples of electronics are the BCU and contactors.
Note 3 to entry: Master publication in ISO/TC 22/SC 37: ISO 12405-4:2018, also defined in ISO/PAS 19363:2017.
3.12
bus
vehicle designed and constructed for the carriage of passengers, comprising more than eight seats in
addition to the driver's seat, and having a maximum mass exceeding 5 t
1)
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-1:— .
3.13
capacity
total number of ampere-hours that can be withdrawn from a fully charged RESS under specified
conditions
2)
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-1:— , also defined in ISO 12405-4:2018.
3.14
case A
connection of an EV to the a.c. supply network (mains) utilizing a supply cable and plug permanently
attached to the EV
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015, also defined in ISO 6469-2:2018.
3.15
case B
connection of an EV to the a.c. supply network (mains) utilizing a detachable cable assembly with a
vehicle connector and a.c. EV supply equipment
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015, also defined in ISO 6469-2:2018.
3.16
case C
connection of an EV to the a.c. supply network (mains) utilizing a supply cable and vehicle connector
permanently attached to the EV supply equipment
Note 1 to entry: Only case C is applicable for mode 4 (see IEC 61851–1).
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015, also defined in ISO 6469-2:2018.
3.17
cell electronics
electronic device that collects and possibly monitors thermal or electric data of cells or cell assemblies
and contains electronics for cell balancing, if necessary
Note 1 to entry: The cell electronics can include a cell controller. The functionality of cell balancing can be
controlled by the cell electronics or by the BCU.
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO 12405-4:2018.
3.18
charge balance of RESS
change of charge in RESS during fuel consumption measurement
Note 1 to entry: Normally expressed in ampere hours (Ah).
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO 23274-2:2012, also defined in ISO 23274-1:2013,
ISO 23828:2013 and ISO/TR 11955.
1) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
2) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
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ISO/TR 8713:2019(E)

3.19
charge-depleting state
CD state
operating mode of a HEV with ICE in which the vehicle runs by consuming mainly the electric energy
from the stationary external power source or along with the fuel energy simultaneously or sequentially
until CS state
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 23274-2:2012.
3.20
charger
power converter at the vehicle power supply circuit which supplies electric power, e.g. for charging a RESS
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015.
3.21
charge-sustaining state
CS state
operating mode where the HEV runs by consuming the fuel energy while sustaining the electric energy
of the RESS
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 23274-2:2012.
3.22
clearance
shortest distance in air between two conductive parts
Note 1 to entry: This distance applies only to parts that are exposed to the atmosphere and not to parts which
are isolated or covered with coating compound.
[SOURCE: IEC 60664-1:2007, 3.2]
3)
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 6469-1:— .
3.23
complete vehicle kerb mass
mass of the vehicle including batteries, without occupants but with fuel, cooling liquid, window washer
fluid, lubricating oil, tools and spare wheel, on-board charger, portable charger or part of it, if provided
as standard equipment by the vehicle manufacturer
[SOURCE: ISO 1176]
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 8715:2001, also defined in ISO 8714:2002.
3.24
component operating status
describes the general functional behaviour of components which depend directly on the voltage in
voltage class B electric circuit
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19295:2016.
3.25
conductive part
part which can carry electric current
[SOURCE: IEC 60050-195:1998, 195-01-06]
4)
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 6469-1:— ,
ISO 6469-4:2015 and ISO 17409:2015.
3) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
4) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
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ISO/TR 8713:2019(E)

3.26
conductively connected circuit
two electric circuits considered conductively connected unless they are separated by at least basic
insulation
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018.
3.27
control pilot circuit
circuit designed for the transmission of signals and/or communication between an EV and an EV supply
equipment
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015.
3.28
control pilot conductor
insulated conductor incorporated in an EV cable assembly that creates, together with the protective
conductor, the control pilot circuit
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015.
3.29
control pilot function
functionality used to monitor and control the interaction between the electric vehicle and the supply
equipment
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015.
3.30
coulomb efficiency
Ah efficiency
efficiency of the battery, based on electricity (in coulomb) for a specified charge/discharge procedure,
expressed by output electricity divided by input electricity
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO/TR 11955.
3.31
customer
party that is interested in using voltage class B component or system
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19295:2016.
party that is interested in using the RESS or RESS subsystem and therefore, orders or performs the test
EXAMPLE A vehicle manufacturer.
5)
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-1:— .
3.32
creepage distance
shortest distance along the surface of a solid insulating material between two conductive parts
[SOURCE: IEC 60050-151:2001/AMD1: 2013, 151-15-50]
6)
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 6469-1:— .
5) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
6) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
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ISO/TR 8713:2019(E)

3.33
d.c. EV charging station
EV supply equipment intended to supply d.c. current to an EV
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015.
3.34
degree of protection
IP
protection provided by an enclosure against access, foreign objects and/or water and verified by
standardized test methods in accordance with ISO 20653
[SOURCE: ISO 20653, modified — “in accordance with ISO 20653” added]
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018.
3.35
direct contact
electric contact of persons or animals with live parts
[SOURCE: IEC 60050-195:1998, 195-06-03]
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 6469-4:2015 and
ISO 17409:2015.
3.36
displacement power factor
power factor due to the phase shift between voltage and current at the fundamental line frequency
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015.
3.37
distortion power factor
th
product of the displacement power factor and the total harmonic distortion up to the 40 harmonics of
the load current
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015.
3.38
double insulation
insulation comprising both basic insulation and supplementary insulation
[SOURCE: IEC 60050-195:1998, 195-06-08]
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO/PAS 19363:2017
and ISO 17409:2015.
3.39
driving-enabled mode
operating mode in which the vehicle can be moved by its own propulsion system by one action
Note 1 to entry: Examples for this action are: pressure to the accelerator pedal, activation of an equivalent
control, release of the brake system.
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-2:2018.
3.40
dynamic loaded radius (tyre)
effective radius of a tyre when it is deformed by the mass of the vehicle loaded to its test mass
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 8715:2001.
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ISO/TR 8713:2019(E)

3.41
electric chassis
conductive parts of a vehicle that are electrically connected and whose potential is taken as reference
7)
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 6469-1:— ,
ISO 6469-4:2015 and ISO 17409:2015.
3.42
electric circuit
entire set of interconnected live parts through which electrical current is designed to flow under
normal operating conditions
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19295:2016.
3.43
electric drive
combination of an electric traction motor, power electronics and their associated controls for the
conversion of electric to mechanical power and vice versa
8)
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 6469-1:— ,
ISO 6469-2:2018, ISO 6469-4:2015 and ISO 12405-4:2018.
3.44
electric propulsion system maximum working voltage
highest value of d.c. voltage that can occur in an electric propulsion system under any normal operating
conditions according to the customer's specifications, disregarding transients
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19295:2016.
3.45
electric shock
physiological effect resulting from an electric current through a human body or animal body
[SOURCE: IEC 60050-195:1998, 195-01-04]
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 6469-4:2015,
ISO 17409:2015 and ISO/PAS 19363:2017.
3.46
electrically propelled vehicle
EV
vehicle with one or more electric drive(s) for vehicle propulsion
9)
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 6469-1:— ,
ISO 6469-2:2018, ISO 6469-4:2015, ISO 12405-4:2018, ISO/PAS 19363:2017 and ISO 17409:2015
3.47
energized
qualifies a conductive part having an electric potential difference with respect to a relevant reference
[SOURCE: IEC 60050-151:2001/AMD1: 2013, 151-15-58, modified — Note deleted]
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018.
7) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
8) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
9) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
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ISO/TR 8713:2019(E)

3.48
energy balance of RESS
ΔE
RESS
change of RESS energy state during an applicable driving test
Note 1 to entry: Normally expressed in watt hours (Wh).
Note 2 to entry: For practical use, the energy balance of RESS is approximated by multiplying the charge balance
of battery in ampere hours (Ah) by the nominal voltage in volts (V).
Note 3 to entry: Master publication in ISO/TC 22/SC 37: ISO 23274-2:2012, also defined in ISO 23274-1:2013,
ISO 23828:2013 and ISO/TR 11955.
3.49
energy density
amount of stored energy related to the battery pack or system volume
Note 1 to entry: The battery pack or system includes the cooling system, if any, to the point of a reversible
attachment of the coolant lines or air ducts, respectively.
Note 2 to entry: Energy density is expressed in watt hours per litre (Wh/l).
Note 3 to entry: Master publication in ISO/TC 22/SC 37: ISO 12405-4:2018.
3.50
energy efficiency
Wh efficiency
efficiency of the battery, based on energy for a specified charge/discharge procedure, expressed by
output energy divided by input energy
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO/TR 11955.
3.51
energy round trip efficiency
ratio of the net d.c. energy delivered by a DUT during a discharge test to the total d.c. energy required to
restore the initial SOC by a standard charge
Note 1 to entry: The net d.c. energy is expressed as watt hours (Wh) discharge and the total d.c. energy is
expressed as watt hours (Wh) charge.
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO 12405-4:2018.
3.52
equipotential bonding
provision of electric connections between conductive parts, intended to achieve equipotentiality
[SOURCE: IEC 60050-195:1998, 195-01-10]
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018.
3.53
EV communication controller
EVCC
embedded system, within the vehicle, that implements the communication between the vehicle and the
SECC in order to support specific functions
Note 1 to entry: Such specific functions could be e.g. controlling input and output channels, encryption, or data
transfer between vehicle and SECC.
[SOURCE: ISO 15118-1]
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19363:2017.
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ISO/TR 8713:2019(E)

3.54
EV device
on-board component assembly comprising the secondary device, the EV power electronics and all on-
board communication controllers, as well as the electrical and mechanical connections between the
assemblies
Note 1 to entry: Ancillary systems used for supporting the operation of MF-WPT are also included (e.g.
positioning).
Note 2 to entry: The hardware packaging of the assemblies is up to the discretion of the manufacturer.
Note 3 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19363:2017.
3.55
EV power circuit
EVPC
electrical component assembly that includes the secondary device and EV power electronics as well as
the mechanical connections between the components
Note 1 to entry: EVPC is here defined specifically for MF-WPT systems.
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19363:2017.
3.56
EV power electronics
on-board component that converts the power and frequency needed for the output from the EVPC
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19363:2017.
3.57
EV supply equipment
equipment or combined equipment providing dedicated functions for an electric power supply from
a fixed installation to an EV for the purpose of charging for all dedicated charging modes and cases of
connection
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015.
3.58
EVPC power class
power class of an EVPC defined according to the MF-WPT input power class of the supply device it is
designed to operate
Note 1 to entry: The power delivered to the EV device will be less than that maximum MF-WPT input power to
the MF-WPT system due to losses e.g. in the supply power electronics and eddy currents in the MF-WPT shield or
the vehicle underbody.
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19363:2017.
3.59
explosion
sudden release of energy sufficient to cause pressure waves and/or projectiles that may cause structural
and/or physical damage to the surrounding area
10)
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-1:— .
10) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
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ISO/TR 8713:2019(E)

3.60
exposed conductive part
conductive part of equipment which can be touched and which is not normally live, but which can
become live when basic insulation fails
Note 1 to entry: A conductive part of electrical equipment which can become live only through contact with an
exposed conductive part which has become live, is not considered to be an exposed conductive part itself.
[SOURCE: IEC 61140:2016, 3.6, modified — “exposed conductive part” replaces “exposed-conductive-part]
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018, also defined in ISO 6469-4:2015 and
ISO 17409:2015.
3.61
external electric power supply
electric power source that is not part of the vehicle for supplying electric energy to an EV using an EV
supply equipment
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 17409:2015.
3.62
externally chargeable HEV
HEV with a rechargeable energy storage system (RESS) that is intended to be charged from an external
electric energy source
Note 1 to entry: External charge for conditioning of the RESS is not included.
Note 2 to entry: Externally chargeable HEVs are known as plug-in HEVs (PHEVs).
Note 3 to entry: Master publication in ISO/TC 22/SC 37: ISO 23274-2:2012.
3.63
fault protection
protection against electric shock under single-fault conditions
[SOURCE: IEC 60050-195:1998, 195-06-02]
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-3:2018.
3.64
fine positioning
relative movement of the secondary device in relation to the primary device with the goal of reaching
optimal alignment
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19363:2017.
3.65
flammable electrolyte
electrolyte having a flash point of not more than 93 °C
Note 1 to entry: The determination of flash point is based on ISO 2592.
11)
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO 6469-1:— .
3.66
foreign object
any object that is not an attached part of the vehicle or the MF-WPT system
[SOURCE: IEC 61980-1]
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO/PAS 19363:2017.
11) Under preparation. Stage at the time of publication: ISO/FDIS 6469-1:2019.
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ISO/TR 8713:2019(E)

3.67
fuel cell hybrid electric vehicle operation mode
FCHEV operation mode
mode of an FCHEV in which both RESS and fuel cell system are used sequentially or simultaneously for
vehicle propulsion
Note 1 to entry: The fuel cell system can also charge the RESS during propulsion or standstill.
Note 2 to entry: Master publication in ISO/TC 22/SC 37: ISO/TR 11954:2008.
3.68
fuel cell hybrid electric vehicle
FCHEV
electrically propelled vehicle with a RESS and a fuel cell system as power sources for vehicle propulsion
Note 1 to entry: Master publication in ISO/TC 22/SC 37: ISO 23828:2013.
3.69
fuel cell stack
assem
...

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