SIST EN 13763-27:2025 - Test Methods for Electronic Initiation Systems

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Explosives for civil uses - Detonators and detonating cord relays - Part 27: Test methods for electronic initiation systems

This document specifies test methods for electronic initiation systems.
The test methods for electronic initiation systems refer to complete electronic initiation systems but also to electronic detonators, wireless electronic detonators and to firing units, programming units, testing units and control units that are part of an electronic initiation system.
Other parts of the EN 13763 series contain test methods applicable to electronic detonators, too.
This document does not apply to electric, non-electric, plain and semi-finished detonators, surface connectors, detonating cord relays, coupling accessories, leading wires and shock tubes.

Explosivstoffe für zivile Zwecke - Zünder und Sprengschnurverzögerer - Teil 27: Prüfverfahren für elektronische Zündsysteme

Dieses Dokument legt Prüfverfahren für elektronische Zündsysteme fest.
Die Prüfverfahren für elektronische Zündsysteme beziehen sich auf vollständige elektronische Zündsysteme, aber auch auf elektronische Zünder, drahtlose elektronische Zünder und Zündeinheiten, Programmiereinheiten, Prüfeinheiten und Steuereinheiten, die Teil eines elektronischen Zündsystems sind.
Auch andere Teile der Normenreihe EN 13763 enthalten auf elektronische Zünder anwendbare Prüfverfahren.
Dieses Dokument ist nicht für elektrische und nichtelektrische Zünder, Sprengkapseln, halbfertige Zünder, Oberflächenverbinder, Sprengverzögerer, Verbinder, Zünderdrähte und Zündschläuche anwendbar.

Explosifs à usage civil - Détonateurs et relais pour cordeau détonant - Partie 27 : Méthodes d’essai pour systèmes d’amorçage électroniques

Le présent document spécifie les méthodes d’essai pour les systèmes d’amorçage électroniques.
Les méthodes d’essai pour systèmes d’amorçage électroniques font référence aux systèmes d’amorçage électroniques complets, mais aussi aux détonateurs électroniques, aux détonateurs électroniques sans fil et aux consoles de tir, unités de programmation, unités de test et unités de contrôle qui font partie d’un système d’amorçage électronique.
D’autres parties de la série EN 13763 contiennent des méthodes qui s’appliquent également aux détonateurs électroniques.
Le présent document ne s’applique pas aux détonateurs électriques, non électriques, pyrotechniques et semi finis, aux connecteurs de surface, relais pour cordeau détonant, manchons d’accouplement, fils d’amorce et tubes à transmission d’ondes de choc.

Eksplozivi za civilno uporabo - Detonatorji in zakasnilniki - 27. del: Preskusne metode za elektronske sisteme za aktiviranje

General Information

Status

Published

Public Enquiry End Date

30-Nov-2021

Publication Date

26-Oct-2025

ICS

71.100.30 - Explosives. Pyrotechnics and fireworks

Technical Committee

IEKS - Explosives

Current Stage

6060 - National Implementation/Publication (Adopted Project)

Start Date

16-Oct-2025

Due Date

21-Dec-2025

Completion Date

27-Oct-2025

Directive

2014/28/EU - Directive 2014/28/EU of the European Parliament and of the Council of 26 February 2014 on the harmonisation of the laws of the Member States relating to the making available on the market and supervision of explosives for civil uses

Mandate

M/562 - Standardization Request on Explosives for civil use

Ref Project

EN 13763-27:2025 - Explosives for civil uses - Detonators and detonating cord relays - Part 27: Test methods for electronic initiation systems

Relations

Revised

SIST-TS CEN/TS 13763-27:2003 - Explosives for civil uses - Detonators and relays - Part 27: Definitions, methods and requirements for electronic initiation systems

Effective Date

18-Jan-2023

Overview

EN 13763-27:2025 - "Explosives for civil uses - Detonators and detonating cord relays - Part 27: Test methods for electronic initiation systems" is a CEN European Standard that specifies test methods for complete electronic initiation systems and their electronic components. The scope covers electronic detonators (including wireless types), firing units, programming/test/control units and other items that form part of an electronic initiation system. It explicitly excludes electric, non‑electric, plain and semi‑finished detonators, surface connectors, detonating cord relays, coupling accessories, leading wires and shock tubes. EN 13763-27:2025 supersedes CEN/TS 13763-27:2003 and is part of the wider EN 13763 series.

Key topics and technical requirements

The standard defines structured test methods and reporting requirements for critical technical aspects, including:

HAZOP completeness verification - procedures to verify hazard and operability analysis coverage for systems.
Uniqueness of fire command - tests ensuring a single intended firing command cannot be confused or duplicated.
Latency and delay accuracy - measurement of system latency and precision of programmed delays.
Data integrity checks - verification of error detection for transmitted information within initiation networks.
Electromagnetic compatibility (EMC) - extensive EMC testing including:
- high‑level and low‑level conducted and radiated disturbances,
- surge testing,
- electrical fast transients and bursts,
- voltage dips and short interruptions,
- electrostatic discharge (ESD),
- radio‑frequency emissions.
Environmental and mechanical resilience for electronic detonators - tests for overvoltage, dynamic pressure, slow and rapid temperature changes, discharge of firing capacitors, fuse head current, and checks for unintended initiation due to stored electrical energy.
Test apparatus, sample preparation, procedures, result expression and test report templates required for consistent, auditable testing.

Applications

EN 13763-27:2025 is intended to ensure safety, reliability and interoperability of electronic initiation systems used in civil explosive applications such as mining, quarrying, construction blasting and controlled demolition. The standard supports:

Product development and type testing by manufacturers of electronic detonators and initiation equipment.
Type approval and conformity assessment by notified bodies and accredited test laboratories.
Procurement specifications and acceptance testing by contractors and site operators.
Risk assessment and safety management for blasting operations.

Who should use this standard

Manufacturers and designers of electronic initiation systems
Test laboratories and EMC facilities
Certification bodies and regulators
Blasting engineers, safety managers and procurement teams

Related standards

Other parts of the EN 13763 series (test methods applicable to electronic detonators)
Relevant EMC and product safety standards referenced within EN 13763-27 for harmonized testing

Keywords: EN 13763-27:2025, electronic initiation systems, test methods, electronic detonators, EMC testing, latency, delay accuracy, CEN standard, blasting safety.

Standard

SIST EN 13763-27:2025

English language

81 pages

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Frequently Asked Questions

What is SIST EN 13763-27:2025?

SIST EN 13763-27:2025 is a standard published by the Slovenian Institute for Standardization (SIST). Its full title is "Explosives for civil uses - Detonators and detonating cord relays - Part 27: Test methods for electronic initiation systems". This standard covers: This document specifies test methods for electronic initiation systems. The test methods for electronic initiation systems refer to complete electronic initiation systems but also to electronic detonators, wireless electronic detonators and to firing units, programming units, testing units and control units that are part of an electronic initiation system. Other parts of the EN 13763 series contain test methods applicable to electronic detonators, too. This document does not apply to electric, non-electric, plain and semi-finished detonators, surface connectors, detonating cord relays, coupling accessories, leading wires and shock tubes.

What is the scope of SIST EN 13763-27:2025?

This document specifies test methods for electronic initiation systems. The test methods for electronic initiation systems refer to complete electronic initiation systems but also to electronic detonators, wireless electronic detonators and to firing units, programming units, testing units and control units that are part of an electronic initiation system. Other parts of the EN 13763 series contain test methods applicable to electronic detonators, too. This document does not apply to electric, non-electric, plain and semi-finished detonators, surface connectors, detonating cord relays, coupling accessories, leading wires and shock tubes.

What ICS categories does SIST EN 13763-27:2025 belong to?

SIST EN 13763-27:2025 is classified under the following ICS (International Classification for Standards) categories: 71.100.30 - Explosives. Pyrotechnics and fireworks. The ICS classification helps identify the subject area and facilitates finding related standards.

What standards are related to SIST EN 13763-27:2025?

SIST EN 13763-27:2025 has the following relationships with other standards: It is inter standard links to SIST-TS CEN/TS 13763-27:2003. Understanding these relationships helps ensure you are using the most current and applicable version of the standard.

Is SIST EN 13763-27:2025 a harmonized European standard?

SIST EN 13763-27:2025 is associated with the following European legislation: EU Directives/Regulations: 2014/28/EU; Standardization Mandates: M/562. When a standard is cited in the Official Journal of the European Union, products manufactured in conformity with it benefit from a presumption of conformity with the essential requirements of the corresponding EU directive or regulation.

How can I purchase SIST EN 13763-27:2025?

You can purchase SIST EN 13763-27:2025 directly from iTeh Standards. The document is available in PDF format and is delivered instantly after payment. Add the standard to your cart and complete the secure checkout process. iTeh Standards is an authorized distributor of SIST standards.

Standards Content (Sample)

SIST EN 13763-27:2025

SLOVENSKI STANDARD
01-december-2025
Eksplozivi za civilno uporabo - Detonatorji in zakasnilniki - 27. del: Preskusne
metode za elektronske sisteme za aktiviranje
Explosives for civil uses - Detonators and detonating cord relays - Part 27: Test methods
for electronic initiation systems
Explosivstoffe für zivile Zwecke - Zünder und Sprengschnurverzögerer - Teil 27:
Prüfverfahren für elektronische Zündsysteme
Explosifs à usage civil - Détonateurs et relais pour cordeau détonant - Partie 27 :
Méthodes d’essai pour systèmes d’amorçage électroniques
Ta slovenski standard je istoveten z: EN 13763-27:2025
ICS:
71.100.30 Eksplozivi. Pirotehnika in Explosives. Pyrotechnics and
ognjemeti fireworks
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

EN 13763-27
EUROPEAN STANDARD
NORME EUROPÉENNE
October 2025
EUROPÄISCHE NORM
ICS 71.100.30 Supersedes CEN/TS 13763-27:2003
English Version
Explosives for civil uses - Detonators and detonating cord
relays - Part 27: Test methods for electronic initiation
systems
Explosifs à usage civil - Détonateurs et relais pour Explosivstoffe für zivile Zwecke - Zünder und
cordeau détonant - Partie 27 : Méthodes d'essai pour Sprengschnurverzögerer - Teil 27: Prüfverfahren für
systèmes d'amorçage électroniques elektronische Zündsysteme
This European Standard was approved by CEN on 29 September 2025.

CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this
European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references
concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN
member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by
translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management
Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,
Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Türkiye and
United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2025 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 13763-27:2025 E
worldwide for CEN national Members.

Contents Page
European foreword . 7
1 Scope . 9
2 Normative references . 9
3 Terms and definitions . 10
4 Test methods for electronic initiation systems . 10
4.1 Verification of completeness of HAZOP . 10
4.1.1 Principle . 10
4.1.2 Test apparatus . 10
4.1.3 Preparation of test sample . 10
4.1.4 Procedure . 11
4.1.5 Expression of result . 11
4.1.6 Test report . 11
4.2 Verification of uniqueness of fire command . 11
4.2.1 Principle . 11
4.2.2 Test apparatus . 11
4.2.3 Preparation of test sample . 11
4.2.4 Procedure . 11
4.2.5 Expression of result . 11
4.2.6 Test report . 11
4.3 Verification of the latency of electronic initiation systems . 12
4.3.1 Principle . 12
4.3.2 Test apparatus . 12
4.3.3 Preparation of test sample . 12
4.3.4 Procedure . 12
4.3.5 Expression of results . 12
4.3.6 Test report . 12
4.4 Verification of data error detection on transmitted information in electronic initiating
systems . 13
4.4.1 Principle . 13
4.4.2 Test apparatus . 13
4.4.3 Preparation of test sample . 13
4.4.4 Procedure . 13
4.4.5 Expression of results . 13
4.4.6 Test report . 13
4.5 Verification of the electromagnetic compatibility of electronic initiation systems . 14
4.5.1 General. 14
4.5.2 Verification of the resistance to high-level conducted and radiated electromagnetic
disturbances . 14
4.5.3 Verification of the resistance to low-level conducted and radiated electromagnetic
disturbances . 16
4.5.4 Verification of the resistance to surge . 19
4.5.5 Verification of the resistance to electrical fast transients and bursts . 22
4.5.6 Verification of the resistance to voltage dips and short interruptions . 25
4.5.7 Verification of the resistance to electrostatic discharge . 28
4.5.8 Verification of Radio Frequency emission . 30
4.6 Verification of delay accuracy of electronic initiation systems . 32
4.6.1 Principle . 32
4.6.2 Test apparatus . 32
4.6.3 Preparation of test sample . 33
4.6.4 Procedure . 35
4.6.5 Expression of result . 36
4.6.6 Test report . 36
5 Test methods for electronic detonators . 37
5.1 Verification of the resistance to overvoltage of electronic detonators with leading wires
............................................................................................................................................................................. 37
5.1.1 Principle . 37
5.1.2 Test apparatus . 37
5.1.3 Preparation of test sample . 37
5.1.4 Procedure . 38
5.1.5 Expression of results . 39
5.1.6 Test report . 39
5.2 Verification of resistance to dynamic pressure of electronic detonators . 40
5.2.1 Principle . 40
5.2.2 Test apparatus . 40
5.2.3 Preparation of test sample . 40
5.2.4 Procedure . 41
5.2.5 Expression of results . 43
5.2.6 Test report . 43
5.3 Verification of resistance to slow temperature changes of electronic detonators . 43
5.3.1 Principle . 43
5.3.2 Test apparatus . 44
5.3.3 Preparation of test sample . 44
5.3.4 Procedure . 44
5.3.5 Expression of result . 44
5.3.6 Test report . 44
5.4 Verification of resistance to rapid temperature change of electronic detonators . 45
5.4.1 Principle . 45
5.4.2 Test apparatus . 45
5.4.3 Preparation of test sample . 45
5.4.4 Procedure . 45
5.4.5 Expression of result . 45
5.4.6 Test report . 45
5.5 Verification of safety against unintended initiation due to electric energy storage in the
detonator . 46
5.5.1 Principle . 46
5.5.2 Test apparatus . 46
5.5.3 Preparation of test sample . 46
5.5.4 Procedure . 46
5.5.5 Expression of results . 46
5.5.6 Test report . 46
5.6 Verification of defined ways of firing electronic detonators . 47
5.6.1 Principle . 47
5.6.2 Test apparatus . 47
5.6.3 Preparation of test sample . 47
5.6.4 Procedure . 47
5.6.5 Expression of results . 47
5.6.6 Test report . 47
5.7 Verification of discharge of firing capacitors of electronic detonators . 47
5.7.1 Principle . 47
5.7.2 Test apparatus . 47
5.7.3 Preparation of test sample . 48
5.7.4 Procedure . 48
5.7.5 Expression of results . 48
5.7.6 Test report . 48
5.8 Verification of fuse head current of electronic detonators . 49
5.8.1 Principle . 49
5.8.2 Test apparatus . 49
5.8.3 Preparation of test sample . 49
5.8.4 Procedure . 49
5.8.5 Expression of result . 49
5.8.6 Test report . 49
5.9 Verification of autonomous operation of electronic detonators . 50
5.9.1 Principle . 50
5.9.2 Test apparatus . 50
5.9.3 Preparation of test sample . 50
5.9.4 Procedure . 50
5.9.5 Expression of results . 51
5.9.6 Test report . 51
6 Test methods for firing units, programming units, testing units and control units of
electronic initiation systems . 51
6.1 Verification of the maximum output current and the maximum transient output energy
pulse of programming units and testing units . 51
6.1.1 Principle . 51
6.1.2 Test apparatus . 51
6.1.3 Preparation of test sample . 52
6.1.4 Procedure . 52
6.1.5 Expression of test result . 53
6.1.6 Test report . 53
6.2 Verification of the insulation resistance of firing units, programming units and testing
units . 53
6.2.1 Principle . 53
6.2.2 Test apparatus . 54
6.2.3 Preparation of test sample . 54
6.2.4 Procedure . 54
6.2.5 Expression of results . 54
6.2.6 Test report . 54
6.3 Verification of the resistance to climatic and mechanical stress of firing units,
programming units, testing units and control units . 54
6.3.1 Preparation of test sample . 54
6.3.2 Verification of the resistance to high temperature . 55
6.3.3 Verification of the resistance to rapid temperature changes . 56
6.3.4 Verification of the resistance to damp heat – first cycle . 57
6.3.5 Verification of the resistance to low temperatures . 59
6.3.6 Verification of the resistance to damp heat – remaining five cycles . 60
6.3.7 Verification of the resistance to shock of units . 61
6.3.8 Verification of the resistance to vibration of units . 62
6.3.9 Verification of the resistance to dropping of units . 64
6.3.10 Verification of the resistance to damp heat – steady-state . 65
6.3.11 Verification of the resistance against ingress of objects or liquids . 66
6.4 Verification of system response in case of faults leading to inadvertent initiation or
misfires of electronic detonators . 68
6.4.1 Principle . 68
6.4.2 Test apparatus . 68
6.4.3 Preparation of test sample . 68
6.4.4 Procedure . 68
6.4.5 Expression of result . 69
6.4.6 Test result. 69
6.5 Verification of fault tolerance of units of electronic initiation systems . 69
6.5.1 Fault tolerance against unintended detonation of electronic detonators . 69
6.5.2 Fault tolerance against unintended detonation of electric detonators . 70
6.6 Verification of incapability of programming and testing units to submit a command to fire
electronic detonators . 71
6.6.1 Principle . 71
6.6.2 Test apparatus . 71
6.6.3 Preparation of test sample . 71
6.6.4 Procedure . 71
6.6.5 Expression of results . 71
6.6.6 Test report . 72
6.7 Verification of maximum duration of the firing window . 72
6.7.1 Principle . 72
6.7.2 Test apparatus . 72
6.7.3 Preparation of test sample . 72
6.7.4 Procedure . 72
6.7.5 Expression of results . 72
6.7.6 Test report . 73
6.8 Verification of user confirmation to fire . 73
6.8.1 Principle . 73
6.8.2 Test apparatus . 73
6.8.3 Preparation of test sample . 73
6.8.4 Procedure . 73
6.8.5 Expression of test result . 73
6.8.6 Test report . 73
6.9 Verification of information about blast parameters provided by the units of electronic
initiating systems . 74
6.9.1 Principle . 74
6.9.2 Test apparatus . 74
6.9.3 Preparation of test sample . 74
6.9.4 Procedure . 74
6.9.5 Expression of test result . 74
6.9.6 Test report . 74
6.10 Verification of remote firing systems entering safe state . 75
6.10.1 Principle . 75
6.10.2 Test apparatus . 75
6.10.3 Preparation of test sample . 75
6.10.4 Procedure . 75
6.10.5 Expression of test result . 75
6.10.6 Test report . 75
6.11 Verification of access protection of updates for units of electronic initiation systems . 76
6.11.1 Principle . 76
6.11.2 Test apparatus . 76
6.11.3 Preparation of test sample . 76
6.11.4 Procedure . 76
6.11.5 Expression of results . 76
6.11.6 Test report . 76
Annex A (normative) Function test for electronic detonators . 77
A.1 Principle . 77
A.2 Test apparatus . 77
A.3 Preparation of test sample . 77
A.4 Procedure . 77
A.5 Expression of result . 78
Annex ZA (informative) Relationship between this European Standard and the essential
requirements of Directive 2014/28/EU relating to the making available on the market and
supervision of explosives for civil uses aimed to be covered . 79
Bibliography . 81
European foreword
This document (EN 13763-27:2025) has been prepared by Technical Committee CEN/TC 321
“Explosives for civil uses”, the secretariat of which is held by UNE.
This European Standard shall be given the status of a national standard, either by publication of an
identical text or by endorsement, at the latest by April 2026, and conflicting national standards shall be
withdrawn at the latest by April 2026.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CEN shall not be held responsible for identifying any or all such patent rights.
This document supersedes CEN/TS 13763-27:2003.
CEN/TS 13763-27:2003:
a) the document title has been changed from “Detonators and relays — Part 27: Definitions, methods
and requirements for electronic initiation systems” to “Detonators and detonating cord relays — Part
27: Test methods for electronic initiation systems”;
b) the document has been comprehensively revised to make the former technical specification fit the
requirements of a European standard;
c) the Introduction has been removed;
d) the Scope has been entirely revised to clarify the content of the document as well as the covered and
not covered explosives;
e) the normative references have been updated;
f) the former terminology entries 3.1 to 3.17 have been removed;
g) the former Clauses 4 “Procedure”, 5 “Test report” and 6 “Requirements” have been removed;
h) the new Clauses 4 “Test methods for electronic initiation systems”, 5 “Test methods for electronic
detonators” and 6 “Test methods for units of electronic initiation systems” have been added;
i) the new Clause 4 contains the revised specifications of the former Subclauses 4.5.1 “Evaluation of
functionality”, 4.5.2 “Evaluation of fault tolerance”, 4.5.3 “Evaluation of design”, 4.5.6.3 “Test method
for the determination of delay accuracy of electronic detonators” and 4.5.6.4 “Test method for the
determination of electromagnetic compatibility of electronic detonators”;
j) the new Clause 5 contains new test methods on the verification of the resistance to overvoltage and
the verification of the resistance to dynamic pressure of electronic detonators as well as the revised
specifications of the former Subclauses 4.5.6.1 “Slow temperature change test” and 4.5.6.2 “Rapid
temperature change test”;
k) the new Clause 6 contains new test methods on the verification of the maximum output current and
the maximum transient output energy pulse, the verification of the insulation resistance and the
verification of the resistance against climatic and mechanical stress;
l) the former Annex C “Proposals for the detonator fuse head replaced (dummy detonators)” has been
removed;
m) the former Annex D “Determination of resistance to dynamic pressure” has been removed;
n) the Annex ZA has been added;
o) the Bibliography has been updated and now also lists EN ISO/IEC 17025:2017.
This document has been prepared under a standardization request addressed to CEN by the European
Commission. The Standing Committee of the EFTA States subsequently approves these requests for its
Member States.
For the relationship with EU Legislation, see informative Annex ZA, which is an integral part of this
document.
A list of all parts in the EN 13763 series, published under the general title Explosives for civil uses —
Detonators and detonating cord relays, can be found on the CEN website.
Any feedback and questions on this document should be directed to the users’ national standards body.
A complete listing of these bodies can be found on the CEN website.
According to the CEN-CENELEC Internal Regulations, the national standards organisations of the
following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Croatia,
Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland,
Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Republic of North
Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Türkiye and the United
Kingdom.
1 Scope
This document specifies test methods for electronic initiation systems.
The test methods for electronic initiation systems refer to complete electronic initiation systems but also
to electronic detonators, wireless electronic detonators and to firing units, programming units, testing
units and control units that are part of an electronic initiation system.
Other parts of the EN 13763 series contain test methods applicable to electronic detonators, too.
This document does not apply to electric, non-electric, plain and semi-finished detonators, surface
connectors, detonating cord relays, coupling accessories, leading wires and shock tubes.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements 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.
EN 13857-1:2025, Explosives for civil uses — Part 1: Vocabulary
EN 13763-1:2025, Explosives for civil uses — Detonators and detonating cord relays — Part 1:
Requirements
1)
EN 55011:2016, Industrial, scientific and medical equipment — Radio-frequency disturbance
characteristics — Limits and methods of measurement
EN 60068-2-14:2009, Environmental testing — Part 2-14: Tests — Test N: Change of temperature
(IEC 60068-2-14:2009)
EN 60068-2-27:2009, Environmental testing — Part 2-27: Tests — Test Ea and guidance: Shock
(IEC 60068-2-27:2008)
EN 60068-2-30:2005, Environmental testing — Part 2-30: Tests — Test Db: Damp heat, cyclic (12 h + 12 h
cycle) (IEC 60068-2-30:2005)
EN 60068-2-31:2008, Environmental testing — Part 2-31: Tests — Test Ec: Rough handling shocks,
primarily for equipment-type specimens (IEC 60068-2-31:2008)
EN 60068-2-47:2005, Environmental testing — Part 2-47: Tests — Mounting of specimens for vibration,
impact and similar dynamic tests (IEC 60068-2-47:2005)
2)
EN 60068-2-64:2008, Environmental testing — Part 2-64: Tests — Test Fh: Vibration, broadband random
and guidance (EN 60068-2-64:2008)
EN 60068-2-78:2013, Environmental testing — Part 2-78: Tests — Test Cab: Damp heat, steady state
(IEC 60068-2-78:2012)
1)
As impacted by EN 55011:2016/A1:2017, EN 55011:2016/A2:2021 and EN 55011:2016/A11:2020.
2)
As impacted EN 60068-2-64:2008/A1:2019.

3)
EN 60529:1991, Degrees of protection provided by enclosures (IP Code) (IEC 60529:1989)
EN 61000-4-2:2009, Electromagnetic compatibility (EMC) — Part 4-2: Testing and measurement
techniques — Electrostatic discharge immunity test (IEC 61000-4-2:2008)
EN 61000-4-4:2012, Electromagnetic compatibility (EMC) — Part 4-4: Testing and measurement
techniques — Electrical fast transient/burst immunity test (IEC 61000-4-4:2012)
4)
EN 61000-4-5:2014, Electromagnetic compatibility (EMC) — Part 4-5: Testing and measurement
techniques — Surge immunity test (IEC 61000-4-5:2014)
EN IEC 61000-4-3:2020, Electromagnetic compatibility (EMC) — Part 4-3 : Testing and measurement
techniques — Radiated, radio-frequency, electromagnetic field immunity test (IEC 61000-4-3:2020)
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The SIST EN 13763-27:2025 standard presents a comprehensive framework for the testing of electronic initiation systems used in explosives for civil applications. The scope of this document is explicitly defined, emphasizing its focus on complete electronic initiation systems, which encompasses electronic detonators, wireless electronic detonators, as well as crucial components such as firing units, programming units, testing units, and control units integral to electronic initiation systems. One of the significant strengths of this standard is its detailed specification of test methods, which are essential for ensuring the safety and reliability of electronic initiation systems. By providing a clear methodology for evaluating these systems, the standard helps mitigate potential risks associated with their use in civil applications. This focus on electronic initiation systems is particularly relevant in today's market, where the demand for advanced, efficient, and safe electronic detonators and initiation systems is continuously growing. Furthermore, the document strategically positions itself within the broader context of the EN 13763 series, which contains additional relevant test methods for electronic detonators. This interconnectivity enhances the standard's applicability and makes it an indispensable reference for professionals in the industry. However, it is also important to note the limitations outlined in the standard, as it does not apply to electric, non-electric, plain, and semi-finished detonators, surface connectors, detonating cord relays, coupling accessories, leading wires, and shock tubes. This specificity ensures that the standard maintains a focused approach to the testing of electronic initiation systems, thereby reinforcing its relevance in a niche yet critical aspect of explosive safety and performance. In summary, SIST EN 13763-27:2025 is a vital standard that establishes essential test methods for electronic initiation systems, significantly contributing to the advancement and safety of explosives in civil applications. Its strengths lie in its comprehensive scope and clear specifications, making it a crucial resource for practitioners and stakeholders in the explosive materials sector.

Le document SIST EN 13763-27:2025 propose des méthodes d'essai pour les systèmes d'initiation électroniques, un sujet d'une importance cruciale dans le secteur des explosifs à usage civil. Cette norme se concentre sur l'évaluation des performances des systèmes d'initiation électronique, englobant non seulement les détonateurs électroniques mais également les détonateurs électroniques sans fil ainsi que les unités de tir, de programmation, de test et de contrôle qui font partie intégrante d'un système d'initiation électronique. L'une des principales forces de cette norme réside dans son approche exhaustive, qui assure que tous les aspects des systèmes d'initiation sont couverts. En définissant des méthodes de test claires et spécifiques, la norme contribue à renforcer la sécurité et la fiabilité des opérations utilisant des systèmes d'initiation électroniques, qui sont de plus en plus adoptés en raison de leurs avantages en termes de précision et de contrôle. Un autre point fort de la SIST EN 13763-27:2025 est son alignement avec d'autres parties de la série EN 13763, garantissant que les tests appliqués aux détonateurs électroniques sont cohérents et harmonisés à travers les différents types de systèmes. Cela permet une standardisation qui est essentielle pour l'industrie, facilitant ainsi l'évaluation comparative des performances et des certifications de sécurité. La pertinence de cette norme se manifeste également dans le contexte actuel des technologies d'explosifs. À mesure que les systèmes d'initiation électronique continuent de progresser, le besoin de méthodes d'essai rigoureuses et fiables devient de plus en plus pressant. La SIST EN 13763-27:2025 répond à ce besoin, en fournissant un cadre adapté à l'évolution des technologies dans l'industrie des explosifs, tout en précisant que cette norme ne s'applique pas aux détonateurs électriques ou non électriques, aux connecteurs de surface ou à d'autres accessoires. En résumé, la SIST EN 13763-27:2025 représente une avancée significative dans la standardisation des méthodes d'essai pour les systèmes d'initiation électroniques, consolidant ainsi la sécurité et l'efficacité dans l'utilisation d'explosifs civils.

SIST EN 13763-27:2025는 전자 개시 시스템을 위한 테스트 방법을 정의한 표준으로, 현대 폭발물 안전 관리의 핵심 요소로 자리 잡고 있습니다. 이 문서는 전자 개시 시스템의 전반적인 성능과 신뢰성을 평가하는 데 필요한 테스트 방법을 규명하고 있어, 폭발물의 안전한 사용을 보장하는 데 기여합니다. 본 표준의 강점 중 하나는 전자 개시 시스템의 구성요소를 명확히 정의하고 포함하고 있다는 점입니다. 전자 뇌관, 무선 전자 뇌관, 발사 장치, 프로그래밍 장치, 테스트 장치 및 제어 장치 등 다양한 장치들을 포괄하여, 업계에서의 적용 가능성을 높이고 있습니다. 이러한 포괄적인 접근은 제품 개발자들에게 유용한 지침을 제공하며, 안전 기준에 부합하는 제품을 설계하는 데 기여합니다. 또한, SIST EN 13763-27:2025는 전자 뇌관 관련 테스트 방법을 다루는 EN 13763 시리즈의 다른 부분과 연결되어 있어 일관된 기준을 유지합니다. 이는 산업 전반에서 통일된 테스트 절차를 수립하게 하여, 다수의 제조업체와 사용자들에게 신뢰성을 제공합니다. 이 문서는 전기 및 비전기 뇌관, 송신선 연결기, 발화 릴레이, 결합 액세서리, 리드 와이어 및 쇼크 튜브 등 특정 장치에는 적용되지 않기 때문에, 명확한 범위를 설정하고 있습니다. 이러한 제한은 표준의 효과성을 높이고, 사용자들이 필요한 특정 테스트 방법을 찾는 데 도움을 줍니다. 전반적으로, SIST EN 13763-27:2025는 전자 개시 시스템에 대한 테스트 방법을 규명하여, 현대 폭발물 산업에서의 안전성 및 효율성을 높이는 데 중요한 역할을 합니다. 이는 다양한 분야에서 폭발물 사용의 안전 기준을 충족시키기 위한 중요한 자원으로, 폭발물 안전 관리에 필수적입니다.

SIST EN 13763-27:2025は、電子起爆システムに関する試験方法を明確に規定している重要な標準文書です。この文書は、完全な電子起爆システムに対してのみならず、電子起爆装置、ワイヤレス電子起爆装置、発射ユニット、プログラミングユニット、試験ユニット、制御ユニットなど、電子起爆システムの一部を構成する機器にも適用されます。この標準の強みは、その包括的な試験方法にあります。他のEN 13763シリーズの一部である標準でも電子起爆装置に関連する試験方法が含まれていますが、SIST EN 13763-27:2025は特に電子起爆システムのテスト方法に焦点を当てており、実務的な適用性が高いと言えます。これにより、業界における段階的な品質管理が促進され、信頼性の高い起爆システムの開発がサポートされます。また、この文書は、電気式、非電気式、簡易的、または半製品の起爆装置や、表面コネクタ、起爆ケーブルリレー、カップリングアクセサリー、リーディングワイヤー、衝撃管などには適用されないことが明記されています。この明確なスコープ設定は、使用者がどのような機器に関してこの試験方法を適用できるのかを正確に理解する手助けとなり、安全基準の遵守を助けるものです。 SIST EN 13763-27:2025は、電子起爆システムの信頼性を高めるための重要な基盤を提供しており、建設業界やその他の民間用途における安全性向上に寄与しています。その関連性と強みは、今後の基準策定や技術開発においても重要な指針となるでしょう。

Die Norm SIST EN 13763-27:2025 behandelt ausführlich die Prüfmethoden für elektronische Initiierungssysteme, die für zivile Sprengstoffe von zentraler Bedeutung sind. Sie ist ein wichtiger Bestandteil der EN 13763-Serie und bietet eine präzise Spezifikation, die sowohl komplette elektronische Initiierungssysteme als auch spezifische Komponenten wie elektronische Detonatoren, drahtlose elektronische Detonatoren sowie Firing- und Programmiergeräte berücksichtigt. Ein wesentlicher Stärke dieser Norm ist ihre umfassende Abdeckung der Testmethoden, welche sicherstellen, dass die elektronischen Initiierungssysteme zuverlässig und sicher im Einsatz sind. Durch die genaue Definition der verschiedenen Bestandteile des Systems wird die Relevanz der Norm für Hersteller und Anwender verdeutlicht. Die detaillierten Prüfmethoden bieten eine klare Anleitung zur Evaluierung der Leistungsfähigkeit und Sicherheit, was in der Praxis von höchster Wichtigkeit ist. Ein weiterer hervorzuhebender Aspekt ist die Differenzierung von anderen Arten von Detonatoren, wie elektrischen und nicht-elektrischen Detonatoren sowie Zubehörteilen. Dies verdeutlicht die Fokussierung dieser Norm auf moderne, elektronische Systeme und deren spezifische Anforderungen. Die klare Abgrenzung der Anwendungsbereiche sorgt dafür, dass Anwender und Hersteller gezielt die relevanten Prüfmethoden anwenden können, ohne dass Verwirrung über die Anwendbarkeit auf andere Detonatorarten entsteht. In einer Zeit, in der Sicherheit und Effizienz bei Sprengarbeiten von größter Bedeutung sind, bietet die SIST EN 13763-27:2025 eine unverzichtbare Grundlage, um die technologischen Fortschritte im Bereich der elektronischen Initiierungssysteme zu unterstützen. Die Norm trägt dazu bei, hohe Sicherheitsstandards zu gewährleisten und gleichzeitig die Innovationsfähigkeit innerhalb der Branche zu fördern, was sie zu einem zeitgemäßen und relevanten Dokument macht.

The kSIST FprEN 13763-27:2025 standard provides a comprehensive framework for the risk analysis and test methods specifically designed for electronic initiation systems used in civil explosives. This standard is critical in ensuring safety and reliability in the use of advanced initiation technologies, contributing significantly to the field of explosives engineering. One of the key strengths of this standard lies in its detailed specification of test methods for various components of electronic initiation systems. By covering complete systems, including electronic detonators, wireless electronic detonators, firing units, programming units, testing units, and control units, the standard ensures that all relevant aspects of electronic initiation technology are addressed. This thorough approach enhances safety protocols across different applications, thereby solidifying the standard's relevance in the industry. Furthermore, the standard's clear demarcation of which components it covers-namely focusing exclusively on electronic initiation systems while excluding electric, non-electric, and other types of detonators-provides precise guidance for manufacturers and users. This clarity helps prevent ambiguities and ensures that stakeholders can implement the applicable test methods efficiently. The relevance of the kSIST FprEN 13763-27:2025 standard cannot be overstated, especially in contexts where electronic initiation represents an increasing trend in explosives applications. It aligns with contemporary safety requirements and technological advancements, making it an indispensable resource for professionals in the field. Through its established test methods and focus on risk analysis, this document stands as a vital tool for improving safety standards and ensuring the effective use of electronic initiation systems.

Die Norm kSIST FprEN 13763-27:2025 behandelt die Risik分析 und Testmethoden für elektronische Initiierungssysteme in der Kategorie der Explosivstoffe für den zivilen Gebrauch. Ihr Hauptfokus liegt auf der Spezifizierung von Testmethoden, welche für vollständige elektronische Initiierungssysteme sowie spezifisch für elektronische Detonatoren, drahtlose elektronische Detonatoren sowie die verschiedenen zugehörigen Einheitstypen wie Zünd-, Programmier-, Test- und Steuereinheiten gelten. Eine der größten Stärken dieses Standards ist die umfassende Abdeckung der Testmethoden, die eine sichere und effektive Nutzung elektronischer Initiierungssysteme gewährleisten. Durch die detaillierte Darstellung der Testverfahren wird sichergestellt, dass die elektrotechnischen Komponenten unter realistisch simulierbaren Bedingungen getestet werden, was zur Erhöhung der Betriebssicherheit und Effizienz beiträgt. Dies ist besonders relevant in Branchen, in denen die Sicherheit an oberster Stelle steht, wie im Bergbau oder im Bauwesen. Darüber hinaus hebt sich die Norm durch ihre enge Verknüpfung mit anderen Teilen der EN 13763-Serie hervor, die ebenfalls Testmethoden für elektronische Detonatoren behandeln. Dies stellt eine konsistente und koordinierte Herangehensweise dar, die den Fachleuten in der Industrie hilft, ein umfassenderes Verständnis für die Nutzung elektronischer Initiierungssysteme zu entwickeln und die Qualitätssicherung in ihren Anwendungen zu fördern. Es ist wichtig zu beachten, dass dieser Standard nicht auf klassische elektrische, nicht-elektrische, einfache und halbfertige Detonatoren sowie Zubehör wie Oberflächenverbinder, Zündleitungsrelais und sonstige Komponenten anwendbar ist. Dadurch bleibt der Fokus klar auf modernen Technologien der elektronischen Zündung gerichtet, was die Relevanz und Aktualität des Dokuments in einem sich schnell entwickelnden Technologiefeld unterstreicht. Insgesamt stellt die kSIST FprEN 13763-27:2025 einen bedeutenden Fortschritt in der Standardisierung von Testmethoden für elektronische Initiierungssysteme dar, indem sie sowohl Klarheit als auch Sicherheit in der Anwendung dieser Technologien gewährleistet.

La norme kSIST FprEN 13763-27:2025 se concentre sur les systèmes d'initiation électronique, précisant des méthodes d'essai pour garantir leur sécurité et leur efficacité. Ce document apporte une valeur considérable dans le domaine des explosifs civils, en renforçant les lignes directrices nécessaires pour l'utilisation sécurisée de détonateurs électroniques et de relais de cordons détonants. Le champ d'application de cette norme est clair et ciblé, englobant les systèmes d'initiation électronique, y compris les détonateurs électroniques complets, les détonateurs électroniques sans fil, ainsi que les unités de tir, les unités de programmation, les unités de test et les unités de contrôle intégrées dans ces systèmes. Cette précision permet une meilleure compréhension et une application plus efficace des méthodes d'essai spécifiées. Parmi les forces notables de cette norme, on trouve son approche exhaustive en matière d'analyse des risques et de test des systèmes d'initiation électronique. En établissant des critères rigoureux, elle permet de minimiser les risques associés à l'utilisation de ces dispositifs, favorisant ainsi une utilisation plus sûre dans des applications civiles. De plus, le lien avec d'autres parties de la série EN 13763, qui inclut également des méthodes d'essai pour les détonateurs électroniques, témoigne de la cohérence et de l'intégration des normes au sein du secteur. La pertinence de cette norme ne peut être sous-estimée. À une époque où la sécurité des explosifs civils est primordiale, kSIST FprEN 13763-27:2025 offre un cadre essentiel pour l'évaluation et la vérification des systèmes d'initiation électronique, contribuant ainsi à la protection des opérateurs et des infrastructures. Sa portée bien définie et ses méthodologies rigoureuses en font un outil indispensable pour les professionnels travaillant avec ces technologies avancées.

この標準文書「kSIST FprEN 13763-27:2025」は、電子起爆システムに関する試験方法を詳細に規定しており、特に民間用途の爆薬における起爆装置と起爆コードリレーに焦点を当てています。この標準は、完全な電子起爆システムのみならず、電子発火装置、ワイヤレス電子発火装置、そして電子起爆システムの一部である発火ユニット、プログラミングユニット、試験ユニット、および制御ユニットについても言及しています。この標準の強みは、その包括的な範囲にあります。電子起爆システム関連の多くの要素を網羅しているため、使用者は異なるシステムのテスト方法を一貫して適用できるメリットがあります。さらに、EN 13763シリーズの他の部分にも電子起爆装置に関する試験方法が含まれているため、標準間の整合性を確保しやすい点も評価されます。また、電子起爆システムに対するリスク分析と試験方法に特化しているため、安全性の向上が図られています。この標準は、技術の進歩とともに開発された起爆技術に即したものであり、最新のニーズに対応しています。従って、電子起爆システムの設計者やエンジニアにとって、実用的かつ信頼性の高いガイドラインを提供するものとなっています。ただし、この標準は電気・非電気・平面および半製品の起爆装置や、サーフェスコネクタ、起爆コードリレー、結合アクセサリ、先導線、ショックチューブには適用されず、その点を明確にしているため、適用範囲が明示されていることも重要な特徴です。全体として、kSIST FprEN 13763-27:2025は、電子起爆システムに関する信頼性の高い試験手順を提供し、業界全体の安全性向上に寄与する重要な標準となっています。

kSIST FprEN 13763-27:2025 표준은 전자 유도 시스템에 대한 시험 방법을 구체적으로 규정하고 있습니다. 이 문서는 전자 유도 시스템의 전체 구성 요소뿐만 아니라 전자 detonator, 무선 전자 detonator, 및 발화 장치, 프로그래밍 장치, 시험 장치 및 제어 장치와 같은 전자 유도 시스템의 일부인 장치들에 대해서도 적용됩니다. 이 표준의 주요 강점 중 하나는 전자 유도 시스템에 대한 포괄적인 위험 분석 및 시험 방법을 제공함으로써 안전성과 효율성을 높인다는 점입니다. 특히, 위험 분석 기준이 명확히 정의되어 있어 산업 현장에서의 적용 가능성이 매우 높습니다. 또한, 다른 EN 13763 시리즈의 일부와 협력하여 전자 detonators에도 적용될 수 있는 시험 방법과의 연계를 제공합니다. 그러나 이 문서는 전기, 비전기, 일반 및 반제품 detonators, 표면 커넥터, detonating cord relays, 결합 액세서리, 리딩 와이어, 쇼크 튜브 등에는 적용되지 않으므로, 사용자는 해당 사항에 유의해야 합니다. 이러한 명확한 범위의 설정은 해당 분야에서의 규제 준수와 테스트 프로세스의 일관성을 보장하는 데 중요한 역할을 합니다. 전반적으로, kSIST FprEN 13763-27:2025 표준은 전자 유도 시스템과 관련된 테스트 방법을 실제적으로 명확히 정의하여 관련 산업 분야에서의 필요와 안전성을 충족시키는 데 기여하고 있습니다.