Single-capped fluorescent lamps - Performance specifications

This Standard specifies the performance requirements for single-capped fluorescent lamps for general lighting service.

Einseitig gesockelte Leuchtstofflampen - Anforderungen an die Arbeitsweise

Lampes à fluorescence à culot unique - Prescriptions de performances

Fluorescenčne sijalke z enim vznožkom - Specifikacije lastnosti (IEC 60901:1996/A4:2007)

Ta standard določa zahteve glede zmogljivosti za fluorescenčne sijalke z enim vznožkom za splošno uporabo v razsvetljavi.

General Information

Status
Published
Publication Date
10-Apr-2008
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
27-Mar-2008
Due Date
01-Jun-2008
Completion Date
11-Apr-2008

Relations

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EN 60901:2001/A4:2008
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Standards Content (Sample)

SLOVENSKI STANDARD
SIST EN 60901:2001/A4:2008
01-maj-2008
)OXRUHVFHQþQHVLMDONH]HQLPY]QRåNRP6SHFLILNDFLMHODVWQRVWL ,(&
$
Single-capped fluorescent lamps - Performance specifications (IEC
60901:1996/A4:2007)
Einseitig gesockelte Leuchtstofflampen - Anforderungen an die Arbeitsweise (IEC
60901:1996/A4:2007)
Lampes a fluorescence a culot unique - Prescriptions de performances (CEI
60901:1996/A4:2007)
Ta slovenski standard je istoveten z: EN 60901:1996/A4:2008
ICS:
29.140.30 )OXRUHVFHQþQHVLMDONH6LMDONH Fluorescent lamps.
Discharge lamps
SIST EN 60901:2001/A4:2008 en,fr
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

---------------------- Page: 1 ----------------------

EUROPEAN STANDARD
EN 60901/A4

NORME EUROPÉENNE
March 2008
EUROPÄISCHE NORM

ICS 29.140.30


English version


Single-capped fluorescent lamps -
Performance specifications
(IEC 60901:1996/A4:2007)


Lampes à fluorescence à culot unique -  Einseitig gesockelte Leuchtstofflampen -
Prescriptions de performances Anforderungen an die Arbeitsweise
(CEI 60901:1996/A4:2007) (IEC 60901:1996/A4:2007)




This amendment A4 modifies the European Standard EN 60901:1996; it was approved by CENELEC on
2008-02-01. CENELEC members are bound to comply with the CEN/CENELEC Internal Regulations which
stipulate the conditions for giving this amendment 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 Central Secretariat or to any CENELEC member.

This amendment exists in three official versions (English, French, German). A version in any other language
made by translation under the responsibility of a CENELEC member into its own language and notified to the
Central Secretariat has the same status as the official versions.

CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Cyprus, the
Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia,
Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain,
Sweden, Switzerland and the United Kingdom.

CENELEC
European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung

Central Secretariat: rue de Stassart 35, B - 1050 Brussels


© 2008 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members.
Ref. No. EN 60901:1996/A4:2008 E

---------------------- Page: 2 ----------------------

EN 60901:1996/A4:2008 - 2 -
Foreword
The text of document 34A/1234/FDIS, future amendment 4 to IEC 60901:1996, prepared by SC 34A,
Lamps, of IEC TC 34, Lamps and related equipment, was submitted to the IEC-CENELEC parallel vote
and was approved by CENELEC as amendment A4 to EN 60901:1996 on 2008-02-01.
The following dates were fixed:
– latest date by which the amendment has to be
implemented at national level by publication of
an identical national standard or by endorsement (dop) 2008-11-01
– latest date by which the national standards conflicting
with the amendment have to be withdrawn (dow) 2011-02-01
__________
Endorsement notice
The text of amendment 4:2007 to the International Standard IEC 60901:1996 was approved by
CENELEC as an amendment to the European Standard without any modification.
__________

---------------------- Page: 3 ----------------------

IEC 60901
Edition 2.0 2007-12
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
AMENDMENT 4
AMENDEMENT 4
Single-capped fluorescent lamps – Performance specifications

Lampes à fluorescence à culot unique – Prescriptions de performances

INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
PRICE CODE
INTERNATIONALE
XA
CODE PRIX
ICS 29.140.30 ISBN 2-8318-9502-2

---------------------- Page: 4 ----------------------

60901 Amend.4 © CEI/IEC:2007
AVANT-PROPOS
Le présent amendement a été établi par le sous-comité 34A: Lampes, du comité d'études 34 de
la CEI: Lampes et équipements associés.
Le texte de cet amendement est issu des documents suivants:
FDIS Rapport de vote
34A/1234/FDIS 34A/1243/RVD

Le rapport de vote indiqué dans le tableau ci-dessus donne toute information sur le vote ayant
abouti à l'approbation de cet amendement.
Le comité a décidé que le contenu de cet amendement et de la publication de base ne sera pas
modifié avant la date de maintenance indiquée sur le site web de la CEI sous
"http://webstore.iec.ch" dans les données relatives à la publication recherchée. A cette date, la
publication sera
• reconduite,
• supprimée,
• remplacée par une édition révisée, ou
• amendée.
_____________

FOREWORD
This amendment has been prepared by subcommittee 34A: Lamps, of IEC technical committee
34: Lamps and related equipment.
The text of this amendment is based on the following documents:
FDIS Report on voting
34A/1234/FDIS 34A/1243/RVD

Full information on the voting for the approval of this amendment can be found in the report on
voting indicated in the above table.
The committee has decided that the contents of this amendment and the base publication will
remain unchanged until the maintenance result date indicated on the IEC web site under
"http://webstore.iec.ch" in the data related to the specific publication. At this date, the publication
will be
• reconfirmed,
• withdrawn,
• replaced by a revised edition, or
• amended.
_____________

---------------------- Page: 5 ----------------------

INSTRUCTIONS POUR L’INSERTION DES INSTRUCTIONS FOR THE

NOUVELLES PAGES ET FEUILLES INSERTION OF NEW PAGES
DE CARACTÉRISTIQUES DANS LA AND DATA SHEETS
PUBLICATION 60901 IN PUBLICATION 60901
__________ __________
1. Retirer la page de titre et insérer la nouvelle
1 Remove title page and insert new title page.

page de titre.
2. Retirer la page 4 et insérer la nouvelle page 4. 2. Remove page 5 and insert new page 5.
3. Retirer la page II-3a et insérer la nouvelle 3. Remove page II-4a and insert new
page II-3a. page II-4a.
4. Retirer la page II-5a et insérer la nouvelle 4. Remove page II-6a and insert new
page II-5a. page II-6a.
5. Remplacer les feuilles de caractéristiques: 5. Replace the lamp data sheets:
2005-2 (page 3) par 2005-3 (page 3) 2005-2 (page 3) with 2005-3 (page 3)
2007-2 (page 3) par 2007-3 (page 3) 2007-2 (page 3) with 2007-3 (page 3)
2009-2 (page 3) par 2009-3 (page 3) 2009-2 (page 3) with 2009-3 (page 3)
2011-2 (page 3) par 2011-3 (page 3) 2011-2 (page 3) with 2011-3 (page 3)
2218-2 (page 3) par 2218-3 (page 3) 2218-2 (page 3) with 2218-3 (page 3)
2224-2 (page 3) par 2224-3 (page 3)
2224-2 (page 3) with 2224-3 (page 3)
2236-2 (page 3) par 2236-3 (page 3) 2236-2 (page 3) with 2236-3 (page 3)
2510-2 (page 3) par 2510-3 (page 3) 2510-2 (page 3) with 2510-3 (page 3)
2513-2 (page 3) par 2513-3 (page 3) 2513-2 (page 3) with 2513-3 (page 3)
2518-2 (page 3) par 2518-3 (page 3) 2518-2 (page 3) with 2518-3 (page 3)
2526-2 (page 3) par 2526-3 (page 3) 2526-2 (page 3) with 2526-3 (page 3)
3118-2 (page 3) par 3118-3 (page 3) 3118-2 (page 3) with 3118-3 (page 3)
3124-2 (page 3) par 3124-3 (page 3) 3124-2 (page 3) with 3124-3 (page 3)
3136-2 (page 3) par 3136-3 (page 3) 3136-2 (page 3) with 3136-3 (page 3)
3413-2 (page 3) par 3413-3 (page 3) 3413-2 (page 3) with 3413-3 (page 3)
3418-2 (page 3) par 3418-3 (page 3) 3418-2 (page 3) with 3418-3 (page 3)
3426-2 (page 3) par 3426-3 (page 3) 3426-2 (page 3) with 3426-3 (page 3)

6240-2 (page 2) par 6240-3 (page 2) 6240-2 (page 2) with 6240-3 (page 2)
6255-2 (page 2) par 6255-3 (page 2)
6255-2 (page 2) with 6255-3 (page 2)
6722-1 (page 2) par 6722-2 (page 2) 6722-1 (page 2) with 6722-2 (page 2)
6740-1 (page 2) par 6740-2 (page 2) 6740-1 (page 2) with 6740-2 (page 2)
6755-1 (page 2) par 6755-2 (page 2) 6755-1 (page 2) with 6755-2 (page 2)
6760-1 (page 2) par 6760-2 (page 2) 6760-1 (page 2) with 6760-2 (page 2)
7432-3 (page 2) par 7432-4 (page 2) 7432-3 (page 2) with 7432-4 (page 2)
7442-3 (page 2) par 7442-4 (page 2) 7442-3 (page 2) with 7442-4 (page 2)
7456-1 (page 2) par 7456-2 (page 2) 7456-1 (page 2) with 7456-2 (page 2)
7457-1 (page 2) par 7457-2 (page 2) 7457-1 (page 2) with 7457-2 (page 2)

6. Insérer les nouvelles feuilles de 6. Insert the new lamp data sheets:
caractéristiques:
6280-1 (pages 1 & 2) 6280-1 (pages 1 & 2)
7469-1 (pages 1 & 2) 7469-1 (pages 1 & 2)
7470-1 (pages 1 & 2) 7470-1 (pages 1 & 2)
7660-1 (pages 1 &”2) 7660-1 (pages 1 &”2)
7685-1 (pages 1 & 2) 7685-1 (pages 1 & 2)
7719-1 (pages 1 & 2) 7719-1 (pages 1 & 2)
7720-1 (pages 1 & 2) 7720-1 (pages 1 & 2)
7862-1 (pages 1 & 2) 7862-1 (pages 1 & 2)
7882-1 (pages 1 & 2) 7882-1 (pages 1 & 2)

7. Retirer la feuille de caractéristiques 7. Remove lamp data sheet 8240-1
8240-1 (2 pages) (2 pages)

8. Retirer la page II-7 et insérer la nouvelle
8. Remove page II-8 and insert new
page II-7. page II-8.


9. Insérer la nouvelle feuille 9. Insert new sheet:
B420-1 (1 page) B420-1 (1 page)

---------------------- Page: 6 ----------------------

IEC 60901
Edition 2.4 2007-12
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE


Single-capped fluorescent lamps – Performance specifications

Lampes à fluorescence à culot unique – Prescriptions de performances


IEC 60901:1996+A1:1997+A2:2000+A3:2004+A4:2007

---------------------- Page: 7 ----------------------

60901 © IEC:1996�A1:199��A2:2000+A3:2007 - 3 -
CONTENTS
�O�E�O��. 5
SECTION 1: �ENE�AL
1.1 Scope . I-2
1.2 �eneral statement. I-2
1.3 Normative references. I-2
1.4 �efinitions. I-4
1.5 Lamp requirements . I-6
1.6 Information for ballast and starter design. I-10
1.� Information for luminaire design. I-10
Annexes
A (normative) �et�od of test for starting c�aracteristics . A-2
� (normative) �et�od of test for electrical, p�otometric and cat�ode c�aracteristics . �-2
C (normative) �et�od of test for lumen maintenance and life . C-2
� (informative) Information for ballast and starter design. �-2
E (informative) Information for luminaire design. E-2
SECTION 2: �ATA SHEETS
2.1 �eneral principles of numbering of data s�eets. II-2
2.2 �iagrammatic data s�eets for location of lamp dimensions . II-2
2.3 Lamp data s�eets. II-4
2.4 �aximum lamp outline s�eets . II-�

---------------------- Page: 8 ----------------------

60901 Amend. 4 © CEI:2007 – 5 –

INTERNATIONAL ELECTROTECHNICAL COMMISSION
____________

SINGLE-CAPPED FLUORESCENT LAMPS –
PERFORMANCE SPECIFICATIONS

FOREWORD
1) The International Electrotechnical Commission (IEC) is a worldwide organization for standardization comprising all
national electrotechnical committees (IEC National Committees). The object of IEC is to promote international co-
operation on all questions concerning standardization in the electrical and electronic fields. To this end and in
addition to other activities, IEC publishes International Standards, Technical Specifications, Technical Reports,
Publicly Available Specifications (PAS) and Guides (hereafter referred to as “IEC Publication(s)”). Their
preparation is entrusted to technical committees; any IEC National Committee interested in the subject dealt with
may participate in this preparatory work. International, governmental and non-governmental organizations liaising
with the IEC also participate in this preparation. IEC collaborates closely with the International Organization for
Standardization (ISO) in accordance with conditions determined by agreement between the two organizations.
2) The formal decisions or agreements of IEC on technical matters express, as nearly as possible, an international
consensus of opinion on the relevant subjects since each technical committee has representation from all
interested IEC National Committees.
3) IEC Publications have the form of recommendations for international use and are accepted by IEC National
Committees in that sense. While all reasonable efforts are made to ensure that the technical content of IEC
Publications is accurate, IEC cannot be held responsible for the way in which they are used or for any
misinterpretation by any end user.
4) In order to promote international uniformity, IEC National Committees undertake to apply IEC Publications
transparently to the maximum extent possible in their national and regional publications. Any divergence between
any IEC Publication and the corresponding national or regional publication shall be clearly indicated in the latter.
5) IEC provides no marking procedure to indicate its approval and cannot be rendered responsible for any equipment
declared to be in conformity with an IEC Publication.
6) All users should ensure that they have the latest edition of this publication.
7) No liability shall attach to IEC or its directors, employees, servants or agents including individual experts and
members of its technical committees and IEC National Committees for any personal injury, property damage or
other damage of any nature whatsoever, whether direct or indirect, or for costs (including legal fees) and expenses
arising out of the publication, use of, or reliance upon, this IEC Publication or any other IEC Publications.
8) Attention is drawn to the Normative references cited in this publication. Use of the referenced publications is
indispensable for the correct application of this publication.
9) Attention is drawn to the possibility that some of the elements of this IEC Publication may be the subject of patent
rights. IEC shall not be held responsible for identifying any or all such patent rights.
International Standard IEC 60809 has been prepared by subcommittee 34A: Lamps, of IEC
technical committee 34: Lamps and related equipment.
This consolidated version of IEC 60901 is based on the second edition (1996) [documents
34A/588/FDIS and 34A/634/RVD], its amendment 1 (1997) [documents 34A/706/FDIS and
34A/743/RVD], its amendment 2 (2000) [documents 34A/908/FDIS and 34A/914/RVD], its
amendment 3 (2004) [documents 34A/1078/FDIS and 34A/1082/RVD], and its amendment 4
(2007) [documents 34A/1234/FDIS and 34A/1243/RVD]
It bears the edition number 2.4.
The origin (edition 2 or amendments 1, 2, 3 or 4) of the standard sheets constituting this
consolidated edition may be identified by the headers of the sheets.
The committee has decided that the contents of this publication will remain unchanged until the
maintenance result date indicated on the IEC web site under "http://webstore.iec.ch" in the data
related to the specific publication. At this date, the publication will be
• reconfirmed,
• withdrawn,
• replaced by a revised edition, or
• amended.

---------------------- Page: 9 ----------------------

– Blank page –

– Page blanche –

---------------------- Page: 10 ----------------------

60901 Amend. 4 © CEI:2007 – II-4a –


   Circuit
Sheet No. Nominal
Frequency Shape Cap Means of AC High Cathode type
60901-IEC- wattage
starting mains frequency
W Hz
6240 40 ≥20 k Dual 2G11 External – Starterless Preheated
6255 55 ≥20 k Dual 2G11 External – Starterless Preheated
6280 80 Dual 2G11 External – Starterless Preheated
≥20 k
6722 22 ≥20 k Circular 2GX13 External – Starterless Preheated
6740 40 ≥20 k Circular 2GX13 External – Starterless Preheated
6755 55 ≥20 k Circular 2GX13 External – Starterless Preheated
6760 60 Circular 2GX13 External – Starterless Preheated
≥20 k
6820 20 ≥20 k Circular GZ10q External – Starterless Preheated
6827 27 ≥20 k Circular GZ10q External – Starterless Preheated
6834 34 ≥20 k Circular GZ10q External – Starterless Preheated
6841 41 Circular GZ10q External – Starterless Preheated
≥20 k
6941 41 ≥20 k Circular GU10q External – Starterless Preheated
6968 68 ≥20 k Circular GU10q External – Starterless Preheated
6997 97 ≥20 k Circular GU10q External – Starterless Preheated
7432 32 Multilimbed GX24q-3 External – Starterless Preheated
≥20 k
7442 42 ≥20 k Multilimbed GX24q-4 External – Starterless Preheated
7456 57 ≥20 k Multilimbed-6 GX24q-5 External – Starterless Preheated
7457 57 Multilimbed-8 GX24q-5 External – Starterless Preheated
≥20 k
7469 70 Multilimbed-6 GX24q-6 External – Starterless Preheated
≥20 k
7470 70 ≥20 k Multilimbed-8 GX24q-6 External – Starterless Preheated
7660 60 ≥20 k Multilimbed-6 2G8-1 External – Starterless Preheated
7685 85 Multilimbed-6 2G8-1 External – Starterless Preheated
≥20 k
7719 120 ≥20 k Multilimbed-6 2G8-1 External – Starterless Preheated
7720 120 ≥20 k Multilimbed-8 2G8-1 External – Starterless Preheated
7862 62 ≥20 k Multilimbed-8 2G8-2 External – Starterless Preheated
7882 82 Multilimbed-8 2G8-2 External – Starterless Preheated
≥20 k

---------------------- Page: 11 ----------------------

60901 Amend. 4 © CEI:2007 – II-6a –


   Circuit
Sheet No. Nominal
Frequency Shape Cap Means of AC High Cathode type
60901-IEC- wattage
starting mains frequency
W Hz
6240 40 ≥20 k Dual 2G11 External – Starterless Preheated
6740 40 ≥20 k Circular 2GX13 External – Starterless Preheated
6841 41 Circular GZ10q External – Starterless Preheated
≥20 k
6941 41 ≥20 k Circular GU10q External – Starterless Preheated
7442 42 ≥20 k Multilimbed GX24q-4 External – Starterless Preheated
6255 55 ≥20 k Dual 2G11 External – Starterless Preheated
6755 55 Circular 2GX13 External – Starterless Preheated
≥20 k
7456 57 ≥20 k Multilimbed-6 GX24q-5 External – Starterless Preheated
7457 57 ≥20 k Multilimbed-8 GX24q-5 External – Starterless Preheated
6760 60 ≥20 k Circular 2GX13 External – Starterless Preheated
7660 60 Multilimbed-6 2G8-1 External – Starterless Preheated
≥20 k
7862 62 ≥20 k Multilimbed-8 2G8-2 External – Starterless Preheated
6968 68 ≥20 k Circular GU10q External – Starterless Preheated
7469 70 ≥20 k Multilimbed-6 GX24q-6 External – Starterless Preheated
7470 70 Multilimbed-8 GX24q-6 External – Starterless Preheated
≥20 k
6280 80 ≥20 k Dual 2G11 External – Starterless Preheated
7882 82 ≥20 k Multilimbed-8 2G8-2 External – Starterless Preheated
7685 85 Multilimbed-6 2G8-1 External – Starterless Preheated
≥20 k
6997 97 Circular GU10q External – Starterless Preheated
≥20 k
7719 120 ≥20 k Multilimbed-6 2G8-1 External – Starterless Preheated
7720 120 ≥20 k Multilimbed-8 2G8-1 External – Starterless Preheated

---------------------- Page: 12 ----------------------

– Blank page –

– Page blanche –

---------------------- Page: 13 ----------------------

60901 Amend. 4 © IEC:2007
SINGLE-CAPPED FL UORESCENT LAMP

Page 3

DATA S HEET


Dual-shaped

ILCOS: FSD-5-E-2G7

Information for high frequency ballast design

Typical lamp characteristics
Frequency Lamp wattage Lamp voltage Lamp current
kHz W V A
≥ 20 5 27 0,190

Normal operation
Min. 0,105
Lamp operating current I A
D
Max. 0,190
Current in any lead to cathodes A Max. 0,240

Dimming operation
Min. 0,015
Lamp operating current I  A
D
Max. 0,105
2
2 2
Minimum sum of squares lead currents : I + I = X - Y I  X (A) 0,030
LH LL D
2
A
2 2
Target sum of squares lead currents   : I + I = X - 0,3 Y I Y (A) 0,240
LH LL D
*
Substitution resistor for each cathode Ω
Lamp substitution resistor Ω *

Starting requirements with cathode preheating, for starting times 0,4 s < ts < 3,0 s
Q (J) 1,0
min
Minimum cathode preheat energy: E = Q + P t
min min min s
P (W) 0,5
min
Voltage across each cathode for E(t) < Emin V Max. (r.m.s.) 11
30
Substitution resistor for each cathode, for testing minimum cathode preheat requirements Ω
Q (J) 2,0
max
Maximum cathode preheat energy: E = Q + P t
max max max s
P (W) 1,0
max
40
Substitution resistor for each cathode, for testing maximum cathode preheat requirements Ω
Non-ignition voltage t ≤ t Max. (r.m.s.) 120
s
Open circuit voltage across lamp V
t > t (+10 °C) Min. (r.m.s.) 250
(without starting aid) s
Ignition voltage
Min. (r.m.s.) *
t > t (-15 °C)
s
30….90
Substitution resistor range for each cathode, for testing open circuit voltage requirements Ω


* Under consideration
Texte français au verso Publication CEI 60901
60901-IEC- 2005-3
French text overleaf IEC Publication 60901

---------------------- Page: 14 ----------------------

60901 Amend. 4 © IEC:2007
SINGLE-CAPPED FL UORESCENT LAMP

Page 3

DATA S HEET


 Dual-shaped

ILCOS: FSD-7-E-2G7

Information for high frequency ballast design

Typical lamp characteristics
Frequency Lamp wattage Lamp voltage Lamp current
kHz W V A
≥ 20 6,5 37 0,175

Normal operation
Min. 0,105
Lamp operating current I A
D
Max. 0,190
Current in any lead to cathodes A Max. 0,240

Dimming operation
Min. 0,015
Lamp operating current I  A
D
Max. 0,105
2
2 2
Minimum sum of squares lead currents : I + I = X - Y I  X (A) 0,030
LH LL D
2
A
2 2
Target sum of squares lead currents   : I + I = X - 0,3 Y I Y (A) 0,240
LH LL D
*
Substitution resistor for each cathode Ω
Lamp substitution resistor Ω *

Starting requirements with cathode preheating, for starting times 0,4 s < ts < 3,0 s
Q (J) 1,0
min
Minimum cathode preheat energy: E = Q + P t
min min min s
P (W) 0,5
min
Voltage across each cathode for E(t) < Emin V Max. (r.m.s.) 11
30
Substitution resistor for each cathode, for testing minimum cathode preheat requirements Ω
Q (J) 2,0
max
Maximum cathode preheat energy: E = Q + P t
max max max s
P (W) 1,0
max
40
Substitution resistor for each cathode, for testing maximum cathode preheat requirements Ω
Non-ignition voltage t ≤ t Max. (r.m.s.) 130
s
Open circuit voltage across lamp V
t > t (+10 °C) Min. (r.m.s.) 270
(without starting aid) s
Ignition voltage
Min. (r.m.s.) *
t > t (-15 °C)
s
30….90
Substitution resistor range for each cathode, for testing open circuit voltage requirements Ω



* Under consideration

Texte français au verso Publication CEI 60901
60901-IEC- 2007-3
French text overleaf IEC Publication 60901

---------------------- Page: 15 ----------------------

60901 Amend. 4 © IEC:2007
SINGLE-CAPPED FL UORESCENT LAMP

Page 3

DATA S HEET


Dual-shaped

ILCOS: FSD-9-E-2G7

Information for high frequency ballast design

Typical lamp characteristics
Frequency Lamp wattage Lamp voltage Lamp current
kHz W V A
≥ 20 8 48 0,170

Normal operation
Min. 0,105
Lamp operating current I A
D
Max. 0,190
Current in any lead to cathodes A Max. 0,240

Dimming operation
Min. 0,015
Lamp operating current I  A
D
Max. 0,105
2
2 2
Minimum sum of squares lead currents : I + I = X - Y I  X (A) 0,030
LH LL D
2
A
2 2
Target sum of squares lead currents   : I + I = X - 0,3 Y I Y (A) 0,240
LH LL D
*
Substitution resistor for each cathode Ω
Lamp substitution resistor Ω *

Starting requirements with cathode preheating, for starting times 0,4 s < ts < 3,0 s
Q (J) 1,0
min
Minimum cathode preheat energy: E = Q + P t
min min min s
P (W) 0,5
min
Voltage across each cathode for E(t) < Emin V Max. (r.m.s.) 11
30
Substitution resistor for each cathode, for testing minimum cathode preheat requirements Ω
Q (J) 2,0
max
Maximum cathode preheat energy: E = Q + P t
max max max s
P (W) 1,0
max
40
Substitution resistor for each cathode, for testing maximum cathode preheat requirements Ω
Non-ignition voltage t ≤ t Max. (r.m.s.) 150
s
Open circuit voltage across lamp V
t > t (+10 °C) Min. (r.m.s.) 290
(without starting aid) s
Ignition voltage
Min. (r.m.s.) *
t > t (-15 °C)
s
30….90
Substitution resistor range for each cathode, for testing open circuit voltage requirements Ω


* Under consideration
Texte français au verso Publication CEI 60901
60901-IEC- 2009-3
French text overleaf IEC Publication 60901

---------------------- Page: 16 ----------------------

60901 Amend. 4 © IEC:2007
SINGLE-CAPPED FL UORESCENT LAMP

Page 3

DATA S HEET


Dual-shaped

ILCOS: FSD-11-E-2G7

Information for high frequency ballast design

Typical lamp characteristics
Frequency Lamp wattage Lamp voltage Lamp current
kHz W V A
≥ 20 11 75 0,150

Normal operation
Min. 0,105
Lamp operating current I A
D
Max. 0,190
Current in any lead to cathodes A Max. 0,240

Dimming operation
Min. 0,015
Lamp operating current I  A
D
Max. 0,105
2
2 2
Minimum sum of squares lead currents : I + I = X - Y I  X (A) 0,030
LH LL D
2
A
2 2
Target sum of squares lead currents   : I + I = X - 0,3 Y I Y (A) 0,240
LH LL D
*
Substitution resistor for each cathode Ω
Lamp substitution resistor Ω *

Starting requirements with cathode preheating, for starting times 0,4 s < ts < 3,0 s
Q (J) 1,0
min
Minimum cathode preheat energy: E = Q + P t
min min min s
P (W) 0,5
min
Voltage across each cathode for E(t) < Emin V Max. (r.m.s.) 11
30
Substitution resistor for each cathode, for testing minimum cathode preheat requirements Ω
Q (J) 2,0
max
Maximum cathode preheat energy: E = Q + P t
max max max s
P (W) 1,0
max
40
Substitution resistor for each cathode, for testing maximum cathode preheat requirements Ω
Non-ignition voltage t ≤ t Max. (r.m.s.) 170
s
Open circuit voltage across lamp V
t > t (+10 °C) Min. (r.m.s.) 330
(without starting aid) s
Ignition voltage
Min. (r.m.s.) *
t > t (-15 °C)
s
30….90
Substitution resistor range for each cathode, for testing open circuit voltage requirements Ω


* Under consideration
Texte français au verso Publication CEI 60901
60901-IEC- 2011-3
French text overleaf IEC Publication 60901

---------------------- Page: 17 ----------------------

60901 Amend. 4 © IEC:2007
SINGLE-CAPPED FL UORESCENT LAMP

Page 3

DATA S HEET


 Dual-shaped

ILCOS: FSD-18-E-2G11

Information for high frequency ballast design

Typical lamp characteristics
Frequency Lamp wattage Lamp voltage Lamp current
kHz W V A
≥ 20 16 50 0,320

Normal operation
Min. 0,270
Lamp operating current I A
D
Max. 0,425
Current in any lead to cathodes A Max. 0,640

Dimming operation
Min. 0,035
Lamp operating current I  A
D
Max. 0,270
2
2 2
Minimum sum of squares lead currents : I + I = X - Y I  X (A) 0,210
LH LL D
2
A
2 2
Target sum of squares lead currents   : I + I = X - 0,3 Y I Y (A) 0,630
LH LL D
*
Substitution resistor for each cathode Ω
Lamp substitution resistor Ω *

Starting requirements with cathode preheating, for starting times 0,4 s < ts < 3,0 s
Q (J) 1,5
min
Minimum cathode preheat energy: E = Q + P t
min min min s
P (W) 0,9
min
Voltage across each cathode for E(t) < Emin V Max. (r.m.s.) 11
8
Substitution resistor for each cathode, for testing minimum cathode preheat requirements Ω
Q (J) 3,0
max
Maximum cathode preheat energy: E = Q + P t
max max max s
P (W) 1,8
max
11
Substitution resistor for each cathode, for testing maximum cathode preheat requirements Ω
Non-ignition voltage t ≤ t Max. (r.m.s.) 150
s
Open circuit voltage across lamp V
t > t (+10 °C) Min. (r.m.s.) 300
(without starting aid) s
Ignition voltage
Min. (r.m.s.) *
t > t (-15 °C)
s
8….24
Substitution resistor range for each cathode, for testing open circuit voltage requirements Ω




* Under consideration

Texte français au verso Publication CEI 60901
60901-IEC- 2218-3
French text overleaf IEC Publication 60901

---------------------- Page: 18 ----------------------

60901 Amend. 4 © IEC:2007
SINGLE-CAPPED FL UORESCENT LAMP

Page 3

DATA S HEET


Dual-shaped

ILCOS: FSD-24-E-2G11

Information for high frequency ballast design

Typical lamp characteristics
Frequency Lamp wattage Lamp voltage Lamp current
kHz W V A
≥ 20 22 75 0,300

Normal operation
Min. 0,270
Lamp operating current I A
D
Max. 0,425
Current in any lead to cathodes A Max. 0,640

Dimming operation
Min. 0,035
Lamp operating current I  A
D
Max. 0,270
2
2 2
Minimum sum of squares lead currents : I + I = X - Y I  X (A) 0,210
LH LL D
2
A
2 2
Target sum of squares lead currents   : I + I = X - 0,3 Y I Y (A) 0,630
LH LL D
*
Substitution resistor for each cathode Ω
Lamp substitution resistor Ω *

Starting requirements with cathode preheating,
...

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