SIST EN 60269-6:2011/kprA1:2021

SLOVENSKI STANDARD
SIST EN 60269-6:2011/oprA1:2018
01-marec-2018
1L]NRQDSHWRVWQHYDURYDONHGHO'RSROQLOQH]DKWHYH]DWDOMLYHYORåNH]D]DãþLWR
VRQþQLKIRWRQDSHWRVWQLKHQHUJLMVNLKVLVWHPRY
Low-voltage fuses - Part 6: Supplementary requirements for fuse-links for the protection
of solar photovoltaic energy systems
Niederspannungssicherungen - Teil 6: Zusätzliche Anforderungen an
Sicherungseinsätze für den Schutz von solaren photovoltaischen
Energieerzeugungssystemen
Fusibles basse tension - Partie 6: Exigences supplémentaires concernant les éléments
de remplacement utilisés pour la protection des systèmes d'énergie solaire
photovoltaïque
Ta slovenski standard je istoveten z: EN 60269-6:2011/prA1:2018
ICS:
29.120.50 9DURYDONHLQGUXJD Fuses and other overcurrent
PHGWRNRYQD]DãþLWD protection devices
SIST EN 60269-6:2011/oprA1:2018 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 60269-6:2011/oprA1:2018

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SIST EN 60269-6:2011/oprA1:2018
32B/673/CDV

COMMITTEE DRAFT FOR VOTE (CDV)
PROJECT NUMBER:
IEC 60269-6/AMD1 ED1
DATE OF CIRCULATION: CLOSING DATE FOR VOTING:
2018-01-19 2018-04-13
SUPERSEDES DOCUMENTS:
32B/672/CC,32B/672/CC

IEC SC 32B : LOW-VOLTAGE FUSES
SECRETARIAT: SECRETARY:
Germany Mr Michael Altenhuber
OF INTEREST TO THE FOLLOWING COMMITTEES: PROPOSED HORIZONTAL STANDARD:

TC 64,TC 82
Other TC/SCs are requested to indicate their interest, if any,
in this CDV to the secretary.
FUNCTIONS CONCERNED:

EMC ENVIRONMENT QUALITY ASSURANCE SAFETY
SUBMITTED FOR CENELEC PARALLEL VOTING NOT SUBMITTED FOR CENELEC PARALLEL VOTING
Attention IEC-CENELEC parallel voting
The attention of IEC National Committees, members of
CENELEC, is drawn to the fact that this Committee Draft for
Vote (CDV) is submitted for parallel voting.
The CENELEC members are invited to vote through the
CENELEC online voting system.

This document is still under study and subject to change. It should not be used for reference purposes.
Recipients of this document are invited to submit, with their comments, notification of any relevant patent rights of which they
are aware and to provide supporting documentation.

TITLE:
Low-voltage fuses - Part 6: Supplementary requirements for fuse-links for the protection of solar
photovoltaic energy systems

PROPOSED STABILITY DATE: 2021

NOTE FROM TC/SC OFFICERS:


Copyright © 2017 International Electrotechnical Commission, IEC. All rights reserved. It is permitted to download this
electronic file, to make a copy and to print out the content for the sole purpose of preparing National Committee positions.
You may not copy or "mirror" the file or printed version of the document, or any part of it, for any other purpose without
permission in writing from IEC.

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SIST EN 60269-6:2011/oprA1:2018
2
IEC CDV 60269-6/A1/Ed1 © IEC 2018 32B/673/CDV
1 Page 6
2
3 1.1 Scope and object
4
5 Replace the sentences:
6 These supplementary requirements apply to fuse-links for protecting PV strings and PV arrays
7 in equipment for circuits of nominal voltages up to 1 500 V d.c.
8 Their rated voltage may be up to 1 500 V d.c.
9
10 By:
11 These supplementary requirements apply to fuse-links for protecting PV strings and PV arrays in
12 equipment for circuits of nominal voltages up to 1 500 V d.c., and also, in so far as they are
13 applicable, for circuits of higher nominal voltages.
14 Page 7
15 1.2 Normative references
16 Delete the dates after
17 IEC 60269-1
18 IEC 60269-2
19 Add:
20 2.2 General terms
21 Add after the title
22
23 Photovoltaic = PV
24
25 Replace 2.2.101 by
26
27 2.2.101 PV fuse-link
28
29 2.2.101.1 PV fuse-link
30 fuse-link capable of breaking, under specified conditions, any current value within the breaking
31 range
32
33 NOTE A PV fuse-link operates under two main conditions:
34
35 • Short-circuit in a string (see IEC 62548 and IEC 60634-7-712 or in an array or sub-array (see IEC 62548 and IEC
36 60634-7-712) which leads to a very low over-current.
37
38 • Short-circuit current supplied by the discharge of the PV inverter through a very low inductance. This short-circuit
39 condition leads to a very high rate of rise of current equivalent to a low value of time constant, corresponding to
40 Table 104.
41
42 2.2.101.2 string fuse-link
43
44 Fuse-link for the short-circuit and overload protection in a string
45
46 2.2.101.3 sub-array or array or array field fuse-link
47 Fuse-link for the short-circuit and cable overload protection in an sub-array or array or array field
48
49 2.2.101.4 functional earthing fuse-link
50 Fuse-link for earthing circuit protection of the photovoltaic (or PV) arrays. Functional earthing fuse-link
51 arrangement can be found in IEC 60364-7-712 and IEC 62548.
52
53
54
55
56

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SIST EN 60269-6:2011/oprA1:2018
3
IEC CDV 60269-6/A1/Ed1 © IEC 2018 32B/673/CDV
57 Delete the paragraphs
58
59 2.2.102  photovoltaic cell
60 2.2.103  photovoltaic module
61
62 delete the words “array field, assembly, generator, panel”
63 in paragraph 2.2.104
64
65 Delete the paragraphs
66
67 2.2.104.2 photovoltaic array field
68 2.2.104.3 photovoltaic assembly
69 2.2.104.4 photovoltaic generator
70 2.2.104.5 photovoltaic panel
71
72 Change 2.2.104.6 to 2.2.104.2 and
73 Change 2.2.104.7 to 2.2.104.3
74
75 Delete the paragraphs
76
77 2.2.105  inverter
78 2.2.106  junction box
79 2.2.106.1 array junction box
80 2.2.106.2 generator junction box
81
82 Change 2.2.107 to 2.2.105
83 delete [61836,3.2.16]
84
85 Change 2.2.108 to 2.2.106
86
87 Delete the paragraphs
88
89 2.2.109  photovoltaic currents
90 2.2.109.1 load current
91 2.2.109.2 maximum power current
92 2.2.109.3 rated current
93
94 Delete the entire paragraph 2.2.109.4 and add the following text
95
96 2.2.107 currents
97
98 2.2.107.1 short circuit current (symbol I ), (unit:A)
SC
99 Electric current at the output terminals of a PV device at a particular temperature and
100 irradiance, when the device output voltage is equal or closed to zero.
101
102 2.2.107.2 maximum overcurrent rating I
MOD_MAX_OCPR
103 PV module maximum overcurrent protection rating determined by IEC 61730-2
104
105 2.2.107.3 short circuit current of a PV module I
SC MOD
106 short circuit current of a PV module or PV string at standard test conditions (STC), as specified
107 by the manufacturer
108
109 2.2.107.4 Short circuit current of an array I
SC ARRAY
110 short-circuit current of the PV array at standard test conditions (STC), and is equal to
111 I = I × N
SC ARRAY SC MOD S
112 where N is the total number of parallel-connected PV strings in the PV array
S
113
114 Note 1: A PV string is a number of PV modules connected in series. The short circuit current of a string is equal to I
SC,MOD.

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SIST EN 60269-6:2011/oprA1:2018
4
IEC CDV 60269-6/A1/Ed1 © IEC 2018 32B/673/CDV
115
116 2.2.107.5 Short circuit current of an sub-array I
SC S-ARRAY
117 short circuit current of a PV sub-array at standard test conditions (STC), and equal to
118 I = I × N where N is the number of parallel-connected PV strings in the PV sub-
SC S-ARRAY SC MOD SA SA
119 array
120
121 2.2.107.6 Maximum reverse current (symbol (I ) (unit : A)
RM
122 Maximum reverse current accepted by the module or the panel.
123
124
125 Change 2.2.110 to 2.2.108
126
127
128 Delete the paragraphs
129
130 2.2.110.1 load voltage
131 2.2.110.2 maximum power voltage
132 2.2.110.3 maximum power voltage under standard operating conditions
133 2.2.110.4 maximum power voltage under standard test conditions
134
135 Change 2.2.110.5 to 2.2.108.1 and replace in this paragraph the word “…. output electrical current…”
136 by “ ………load current……”
137
138 Change 2.2.110.6 to 2.2.108.2 and delete the words “[IEC 61836, 3.4.69k]…” by “ ………load
139 current……”
140
141 Delete the paragraph
142
143 2.2.110.7 rated voltage
144
145
146 Page 10
147 2.2.110.5
148 open-circuit voltage of PV device
149 Replace “output electric current” by “ load current “ in the sentence (last line)

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SIST EN 60269-6:2011/oprA1:2018
5
IEC CDV 60269-6/A1/Ed1 © IEC 2018 32B/673/CDV
150 Page 12
151 Table 101 – Conventional times and currents for “gPV” fuse-links
152 Replace Table 101 by the following
153 Table 101 – Conventional times and currents for “gPV” fuse-links
Conventional current
Rated current Conventional time
Type “gPV”
Fuse type
A h
I I
nf f
1)
1,35 I
n
1,05 I
n
I ≤ 63
1 String fuse-link
n

2 hours
32 < I ≤ 63
1
n
63 < I ≤ 160
2
n
1,45 I
n *
1,13 I
Sub-array or array fuse-link
n  *

160 < I ≤ 400
3
n
I > 400
4
n
1)
Note : For I = 1,35 I , the operating time = 2 h (The thermal withstand capability of a PV module
f n
under reverse current is qualified during a 2 h test specified in the module safety test f
...