EN 62639:2012

SLOVENSKI STANDARD
01-julij-2012
)OXRUHVFHQþQHLQGXNFLMVNHVLMDONH=DKWHYH]DGHORYDQMH
Fluorescent induction lamps - Performance requirements
Leuchtstoff-Induktionslampen - Anforderungen an die Arbeitsweise
Lampes fluorescentes à induction - Spécification de performance
Ta slovenski standard je istoveten z: EN 62639:2012
ICS:
29.140.30 )OXRUHVFHQþQHVLMDONH6LMDONH Fluorescent lamps.
Discharge lamps
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

EUROPEAN STANDARD
EN 62639
NORME EUROPÉENNE
April 2012
EUROPÄISCHE NORM
ICS 29.140.30
English version
Fluorescent induction lamps -
Performance specification
(IEC 62639:2012)
Lampes fluorescentes à induction -  Leuchtstoff-Induktionslampen -
Spécification de performance Anforderungen an die Arbeitsweise
(CEI 62639:2012) (IEC 62639:2012)

This European Standard was approved by CENELEC on 2012-03-27. CENELEC 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 CENELEC 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 CENELEC member into its own language and notified
to the CEN-CENELEC Management Centre has the same status as the official versions.

CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, 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, Turkey and the United Kingdom.

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

Management Centre: Avenue Marnix 17, B - 1000 Brussels

© 2012 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members.
Ref. No. EN 62639:2012 E
Foreword
The text of document 34A/1526/FDIS, future edition 1 of IEC 62639, prepared by SC 34A, "Lamps", of
IEC/TC 34, "Lamps and related equipment" was submitted to the IEC-CENELEC parallel vote and
approved by CENELEC as EN 62639:2012.

The following dates are fixed:
(dop) 2012-12-27
• latest date by which the document has
to be implemented at national level by
publication of an identical national
standard or by endorsement
• latest date by which the national (dow) 2015-03-27
standards conflicting with the
document have to be withdrawn
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC [and/or CEN] shall not be held responsible for identifying any or all such patent
rights.
Endorsement notice
The text of the International Standard IEC 62639:2012 was approved by CENELEC as a European
Standard without any modification.

- 3 - EN 62639:2012
Annex ZA
(normative)
Normative references to international publications
with their corresponding European publications

The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.

NOTE  When an international publication has been modified by common modifications, indicated by (mod), the relevant EN/HD
applies.
Publication Year Title EN/HD Year

IEC 60081 1997 Double-capped fluorescent lamps - EN 60081 1998
Performance specifications
IEC 60598-1 - Luminaires - EN 60598-1 -
Part 1: General requirements and tests

IEC 60929 - AC and/or DC-supplied electronic control gear EN 60929 -
for tubular fluorescent lamps - Performance
requirements
IEC 61347-2-3 - Lamp controlgear - EN 61347-2-3 -
Part 2-3: Particular requirements for a.c.
and/or d.c. supplied electronic control gear for
fluorescent lamps
IEC 62532 2011 Fluorescent induction lamps - Safety EN 62532 2011
specifications
IEC 62639 ®
Edition 1.0 2012-02
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
colour
inside
Fluorescent induction lamps – Performance specification

Lampes fluorescentes à induction – Spécification de performance

INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
PRICE CODE
INTERNATIONALE
CODE PRIX XB
ICS 29.140.30 ISBN 978-2-88912-920-1

– 2 – 62639  IEC:2012
CONTENTS
FOREWORD . 3
INTRODUCTION . 5
1 Scope . 6
2 Normative references . 6
3 Terms and definitions . 6
4 Lamp requirements . 7
4.1 General . 7
4.2 Marking . 8
4.2.1 General . 8
4.2.2 Correlated colour temperature (CCT) and colour rendering index (R ) . 8
a
4.2.3 Polarity . 8
4.3 Dimensions . 8
4.4 Starting characteristics . 8
4.5 Electrical characteristics . 8
4.6 Photometric characteristics . 8
4.7 Lumen maintenance . 9
4.8 Life . 9
5 Information for ballast design . 9
6 Information for luminaire design . 9
7 Data sheets . 9
7.1 Diagrammatic data sheets for location of lamp dimensions . 9
7.2 Lamp data sheets . 18
7.3 Maximum outline sheets . 44
Annex A (normative) Method of test for starting characteristics . 55
Annex B (normative) Method of test for electrical and photometric characteristics . 57
Annex C (normative) Method of test for lumen maintenance and life . 61
Annex D (informative) Information for ballast design . 62
Annex E (informative) Information for luminaire design . 66
Bibliography . 67

Figure A.1 – Test circuit for measurement of starting characteristics . 56
Figure B.1 – Schematic set-up for measurement of electrical characteristics of
externally coupled induction lamps and photometrical characteristics . 59
Figure B.2 – Example of calorimetric set-up for measurement of power of internally a-
type coupled induction lamps . 60
Figure D.1 – Circuit for testing ballasts – Lamp voltage, lamp current, phase shift and
frequency measured at starting and during operation . 63
Figure D.2 – Circuit for testing ballasts – Lamp voltage, current and frequency
measured at starting . 64
Figure D.3 – Circuit for testing ballasts – Lamp voltage, current, phase shift and
frequency measured during operation . 65

Table A.1 – Frequencies of specially prepared ballasts . 55

62639  IEC:2012 – 3 –
INTERNATIONAL ELECTROTECHNICAL COMMISSION
___________
FLUORESCENT INDUCTION LAMPS –
PERFORMANCE SPECIFICATION
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 itself does not provide any attestation of conformity. Independent certification bodies provide conformity
assessment services and, in some areas, access to IEC marks of conformity. IEC is not responsible for any
services carried out by independent certification bodies.
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 62639 has been prepared by subcommittee 34A: Lamps, of IEC
technical committee 34: Lamps and related equipment.
The text of this standard is based on the following documents:
FDIS Report on voting
34A/1526/FDIS 34A/1555/RVD
Full information on the voting for the approval of this standard can be found in the report on
voting indicated in the above table.
This publication has been drafted in accordance with the ISO/IEC Directives, Part 2.

– 4 – 62639  IEC:2012
The committee has decided that the contents of this publication will remain unchanged until
the stability 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.
IMPORTANT – The 'colour inside' logo on the cover page of this publication indicates
that it contains colours which are considered to be useful for the correct
understanding of its contents. Users should therefore print this document using a
colour printer.
62639  IEC:2012 – 5 –
INTRODUCTION
Performance standard IEC 62639 follows IEC 62532:2011-01, which is the safety standard for
induction lamps.
Requirements are given on marking, dimensions, starting characteristics, electrical
characteristics, photometric characteristics, lumen maintenance and life. Further, information
is given for designing ballasts and luminaires.
The requirements are detailed by means of lamp data sheets, diagrammatic data sheets and
maximum lamp outline sheets.
– 6 – 62639  IEC:2012
FLUORESCENT INDUCTION LAMPS –
PERFORMANCE SPECIFICATION
1 Scope
This International Standard specifies the performance requirements for fluorescent induction
lamps for general lighting purposes.
In this standard, the term “lamp” stands for “induction lamp”.
It may be expected that lamps which comply with this standard will start and operate
satisfactorily at voltages between 92 % and 106 % of rated supply voltage and at an ambient
air temperature between 10 °C and 50 °C, when operated with ballasts complying with
IEC 60929 and IEC 61347-2-3, as far as applicable, and in a luminaire complying with
IEC 60598-1.
NOTE For some lamps, additional information for ballast design is given for proper starting at an ambient air
temperature of –15 °C.
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and
are indispensable for its application. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any
amendments) applies.
IEC 60081:1997, Double-capped fluorescent lamps – Performance specifications
IEC 60598-1, Luminaires – Part 1: General requirements and tests
IEC 60929, AC and/or DC-supplied electronic control gear for tubular fluorescent lamps –
Performance requirements
IEC 61347-2-3, Lamp control gear – Part 2-3: Particular requirements for a.c. and/or d.c.
supplied electronic control gear for fluorescent lamps
IEC 62532:2011, Fluorescent induction lamps – Safety specifications
3 Terms and definitions
For the purposes of this document, the terms and definitions given in IEC 62532 and
IEC 60081 apply, together with the following.
3.1
ambient temperature
T
amb
average temperature of air or another medium in the vicinity of the lamp

62639  IEC:2012 – 7 –
3.2
stabilization period
time required after switching on a lamp to reach stable values of luminous flux or lamp voltage
Note 1 to entry: Requirements on luminous flux are given in 4.6 and on tolerance of luminous flux in Clause B.2.
3.3
reference ballast
special electronic ballast, which is specified by the design specification of manufacturer
It is designed for the purpose of providing comparison standards for use in testing ballasts, for
the selection of reference lamps or for testing regular production lamps under standardized
conditions. It is essentially characterized by the fact that, at its rated frequency, it has a stable
voltage/current ratio which is relatively uninfluenced by variations in current, temperature and
magnetic surroundings, as outlined in the relevant ballast standard.
[SOURCE: IEC 60050-845:1987, 845-08-36, modified]
3.4
life
time during which a lamp is operated until its failure
Note 1 to entry: Switch-off times are not regarded when calculating life.
3.5
nominal life
life (in hours) as declared by the manufacturer
It is published together with the switching cycle and failure rate on which it is based.
Note 1 to entry: Example for a short version: 12B10 (12 h switching cycle / 10 % failures).
4 Lamp requirements
4.1 General
A lamp, on which compliance with this standard is claimed, shall comply with the requirements
of IEC 62532.
A lamp has to comply with further requirements or more stringent requirements, if they
published by manufacturer.
A lamp shall be so designed that its performance is reliable in normal and accepted use. In
general, this can be achieved by satisfying the requirements of the following subclauses.
The requirements and information given apply to 95 % of production.
NOTE The requirements and tolerances permitted by this standard correspond to the testing of a type test
sample, submitted by the manufacturer for that purpose. In principle, this type test sample should consist of units
having characteristics typical of the manufacturer’s production and being as close to the production centre point
values as possible.
It may be expected with the tolerances given in the standard that products manufactures in accordance with the
type test sample will comply with the standard of the majority of production. Due to the production spread however,
it is inevitable that there will sometimes be products outside the specified tolerances.
Measurements are carried out under reference conditions with values specified on the data
sheets, if available. Except where otherwise specified in the annexes, lamps shall be tested in
an ambient temperature of between 20 °C and 27 °C.

– 8 – 62639  IEC:2012
4.2 Marking
4.2.1 General
In addition to the marking requirements of IEC 62532, the following is specified.
4.2.2 Correlated colour temperature (CCT) and colour rendering index (R )
a
The value of the correlated colour temperature and colour rendering index shall be provided
on the lamp itself or on the packaging (under consideration). The value representing CCT and
R may take the form as given in the International Lamp Coding System (ILCOS).
a
NOTE An R of 80 and a CCT of 3 000 K may be combined in the abbreviation “830”.
a
4.2.3 Polarity
The polarity shall be identified by marking the terminals (+, -). Other means of identifying are
possible instead, see Clause B.2.
4.3 Dimensions
The dimensions of a lamp shall comply with the values specified on the relevant lamp data
sheet.
Compliance: By measuring with callipers or equivalent.
4.4 Starting characteristics
A lamp shall start fully within the time specified on the relevant lamp data sheet and remain
alight.
Compliance: Visual inspection to verify that lamps are starting and remain alight. If the lamp
has achieved breakdown at ≤U and stayed alight, it has passed the test.
min
Conditions and method of test are given in Annex A.
4.5 Electrical characteristics
Requirements for lamp voltage and power are given below.
a) The initial reading of the voltage at the lamp terminals shall comply with the values
specified on the relevant lamp data sheet.
b) The initial reading of the power dissipated by a lamp shall not exceed the rated power
specified on the relevant lamp data sheet by more than 5 %.
Conditions and method of test are given in Annex B.
4.6 Photometric characteristics
Requirements for luminous flux, chromaticity coordinates and colour rendering index are
given below.
a) The initial reading of the luminous flux of a lamp shall be not less than 90 % and the
average of a batch shall be not less than 95 % (under consideration) of the declared
value.
b) If specified, the initial reading of the chromaticity co-ordinates x and y of a lamp shall be
within 5 SDCM (standard deviation of colour matching) from the rated values.
c) The initial reading of the general colour rendering index R of a lamp shall be not less
a
than the rated value decreased by three.

62639  IEC:2012 – 9 –
Conditions and method of test are given in Annex B.
4.7 Lumen maintenance
The lumen maintenance of a lamp, at any time in its life, shall be not less than 90 % of the
rated lumen maintenance value.
Conditions and method of test are given in Annex C.
4.8 Life
Requirements are provided by the lamp manufacturer.
5 Information for ballast design
Refer to the relevant lamp data sheet and to Annex D for information for ballast design.
6 Information for luminaire design
Refer to the relevant lamp data sheet and to Annex E for information for luminaire design. The
regional requirements on EMC should be regarded.
7 Data sheets
7.1 Diagrammatic data sheets for location of lamp dimensions
62639-IEC-01 rectangular shaped lamps
62639-IEC-02 circular shaped lamps
62639-IEC-03 A110, A130 and A140 shaped lamps
62639-IEC-04 G95 shaped lamps
62639-IEC-05 PS110 shaped lamps
62639-IEC-06 PS180 shaped lamps
62639-IEC-07 R160 shaped lamps
62639-IEC-08 T85 shaped lamps
– 10 – 62639  IEC:2012
INDUCTION LAMPS
DIAGRAMMATIC DATA SHEET FOR LOCATION OF
LAMP DIMENSIONS
Rectangular shaped, externally coupled, a-type

These drawings are intended only to indicate dimensions to be controlled
and are to be used in conjunction with the relevant lamp standard sheets.

L L S
4 3
W
L
L
L
D
H
H
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62639  IEC:2012 – 11 –
INDUCTION LAMPS
DIAGRAMMATIC DATA SHEET FOR LOCATION OF
LAMP DIMENSIONS
Circular shaped, externally coupled, b-type

These drawings are intended only to indicate dimensions to be controlled
and are to be used in conjunction with the relevant lamp standard sheets.

W
H
L L
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– 12 – 62639  IEC:2012
INDUCTION LAMPS
DIAGRAMMATIC DATA SHEET FOR LOCATION OF
LAMP DIMENSIONS
A110, A130 and A140 shaped, internally coupled, a-type

These drawings are intended only to indicate dimensions to be controlled
and are to be used in conjunction with the relevant lamp standard sheets.

D
L
B
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62639  IEC:2012 – 13 –
INDUCTION LAMPS
DIAGRAMMATIC DATA SHEET FOR LOCATION OF
LAMP DIMENSIONS
G95 shaped, internally coupled, b-type

These drawings are intended only to indicate dimensions to be controlled
and are to be used in conjunction with the relevant lamp standard sheets.

D
L
B
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– 14 – 62639  IEC:2012
INDUCTION LAMPS
DIAGRAMMATIC DATA SHEET FOR LOCATION OF

LAMP DIMENSIONS
PS110 shaped, internally coupled, b-type

These drawings are intended only to indicate dimensions to be controlled
and are to be used in conjunction with the relevant lamp standard sheets.

D
L
B
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62639  IEC:2012 – 15 –
INDUCTION LAMPS
DIAGRAMMATIC DATA SHEET FOR LOCATION OF
LAMP DIMENSIONS
PS180 shaped, internally coupled, b-type

These drawings are intended only to indicate dimensions to be controlled
and are to be used in conjunction with the relevant lamp standard sheets.

D
L
B
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– 16 – 62639  IEC:2012
INDUCTION LAMPS
DIAGRAMMATIC DATA SHEET FOR LOCATION OF
LAMP DIMENSIONS
R160 shaped, internally coupled, b-type

These drawings are intended only to indicate dimensions to be controlled
and are to be used in conjunction with the relevant lamp standard sheets.

D
L
B
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62639  IEC:2012 – 17 –
INDUCTION LAMPS
DIAGRAMMATIC DATA SHEET FOR LOCATION OF
LAMP DIMENSIONS
T85 shaped, internally coupled, a-type

These drawings are intended only to indicate dimensions to be controlled
and are to be used in conjunction with the relevant lamp standard sheets.
D
L
B
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– 18 – 62639  IEC:2012
7.2 Lamp data sheets
Lamp data sheets are in the order:
1) Shape: (a) round, elliptical, parabolic; (b) rectangular; (c) circular
2) Power, starting with the lowest power

Sheet-No Power Frequency Shape Energetic
coupling
62639-IEC-
Lamp System
rated nominal
W kHz
0035 30 35 135 G95 Internally b-type
0040 36 40 2 650 T85 Internally a-type
0050 50 55 135 PS110 Internally b-type
0055 47 55 2 650 T85 Internally a-type
0070 63 70 2 650 A110 Internally a-type
0085 78 85 2 650 A110 Internally a-type
0100 90 100 2 650 A130 Internally a-type
0150 135 150 2 650 A140 Internally a-type
0160 150 165 135 R160 Internally b-type
0165 150 165 2 650 A130 Internally a-type
0200 180 200 250 A140 Internally a-type
0260 240 260 135 PS180 Internally b-type
1070 70 250 rectangular Externally a-type
1075 75 250 rectangular Externally a-type
1080 80 230 rectangular Externally a-type
1100 100 250 rectangular Externally a-type
1105 100 230 rectangular Externally a-type
1120 120 230 rectangular Externally a-type
1150 150 250 rectangular Externally a-type
1200 200 230 rectangular Externally a-type
2080 80 230 circular Externally b-type
2100 100 230 circular Externally b-type
2120 120 230 circular Externally b-type
2150 150 250 circular Externally b-type
2200 200 250 circular Externally b-type

62639  IEC:2012 – 19 –
INDUCTION LAMP
DATA SHEET Page 1
Internally b-type
ILCOS: FSGI-30-95/207
Nominal system power W 35
Bulb shape G95
Dimensions (mm)
L (height) D (diameter) B (diameter lampbase)

207 95 80
Lamp electrical characteristics

Frequency Rated power Rated voltage Starting time (max.)

kHz W V s
135 30 300 1
Test position: Mechanical interface down.

Information for ballast design

Starting and operating characteristics; lamp substitution circuit, see Figures D.1c, D.2c and D.3c.

Duration of ignition pulse ∆t ms 40

min
Stop of ignition* t s 5
max
Ignition voltage U V 1 600
min peak
Magnetising inductance of the 1 core at 25 °C L µH 164 ± 5 %

em
Resistance during operation R Ω 1 400

d op
Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 60

a max.
* On-time 80 ms ± 40 ms, off-time 1 300 ms ± 700 ms. Repetition 3 times.

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INDUCTION LAMP
DATA SHEET Page 1
Internally a-type
ILCOS: not commercially available

Nominal system power W 40
Bulb shape T85
Dimensions (mm)
L D B (diameter lamp cap)
150 ± 2 85 ± 1 58 ± 0,5
Lamp electrical characteristics

Frequency Rated power Rated voltage Starting time (max.)

kHz W V s
2 650 ± 0,3 % 36 220 ± 20 0,5
Test position: Mechanical interface down.

Information for ballast design

Starting characteristics; lamp substitution circuit for starting, see Figures D.1b and D.2b

Duration of ignition pulse ∆t ms 100

min
Stop of ignition t s 2
max
Ignition voltage U V 1 500
min peak
Equivalent serial resistance @ 2,65 MHz Q-factor > 35

Inductivity @ 2,65 MHz (power coupler substitution circuit) L µH 15 ± 0,5

PC
Capacitance @ 8,0 MHz (power coupler substitution circuit ) C pF 56 ± 5

PC
Operating characteristics; lamp substitution circuit for operating, see

Figures D.1.b and D.3b
Equivalent arc resistance @ 2,65 MHz (during operation) EAR Ω 205

Equivalent arc inductance EAL @ 2,65 MHz (during operation) EAL µH 9,0

Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 60

a max.
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62639  IEC:2012 – 21 –
INDUCTION LAMP
DATA SHEET Page 1
Internally b-type
ILCOS: FSGI-50-110/213
Nominal system power W 55
Bulb shape PS110
Dimensions (mm)
L (height) D (diameter) B (diameter lampbase)

213 110 80
Lamp electrical characteristics

Frequency Rated power Rated voltage Starting time (max.)

kHz W V s
135 50 350 1
Test position: Mechanical interface down.

Information for ballast design

Starting and operating characteristics; lamp substitution circuit, see Figures D.1c, D.2c and D.3c.

Duration of ignition pulse ∆t ms 40

min
Stop of ignition* t s 2
max
Ignition voltage U V 1 600
min peak
Magnetising inductance of the 1 core at 25 °C L µH 158 ± 5 %

em
Resistance during operation R Ω 700

d op
Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 50

a max.
* On-time 80 ms ± 40 ms, off-time 400 ms ± 300 ms. Repetition 3 times.

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INDUCTION LAMP
DATA SHEET Page 1
Internally a-type
ILCOS: FSI-55-146/85/56
Nominal system power W 55
Bulb shape T85
Dimensions (mm)
L D B
146,5 ± 2,0 85 ± 1 56 ± 0,3
Lamp electrical characteristics

Frequency Rated power Rated voltage Starting time (max.)

kHz W V s
2 650 ± 10 % 47 ± 5 120 ± 15 2

Test position: Mechanical interface down.
Information for ballast design

Starting characteristics; lamp substitution circuit for starting, see Figures D.1b and D.2b

Duration of ignition pulse Δt ms 100

min
Stop of ignition t s 2
max
Ignition voltage U V 1 100
min peak
Equivalent serial resistance @ 2,65 MHz Q-factor
> 35
Inductivity @ 2,65 MHz (power coupler substitution circuit) L
µH 19,5 ± 1,5
PC
Capacitance @ 8,0 MHz (power coupler substitution circuit ) C pF
56 ± 6
PC
Operating characteristics; lamp substitution circuit for operating, see Figures D.1b and D.3b

Equivalent arc resistance @ 2,65 MHz (during operation) EAR 209
Ω
Equivalent arc inductance EAL @ 2,6 5MHz (during operation) EAL 8,9
µH
Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 50

a max.
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62639  IEC:2012 – 23 –
INDUCTION LAMP
Page 1
DATA SHEET
Internally a-type
ILCOS: not commercially available
Nominal system power W 70
Bulb shape A110
Dimensions (mm)
L D B (diameter lamp cap)
182 ± 2 110 ± 1,5 58 ± 0,5
Lamp electrical characteristics
Frequency Rated power Rated voltage Starting time (max.)
kHz W V s
2 650 ± 0,3 % 63 220 ± 20 0,5
Test position: Mechanical interface down.

Information for ballast design
Starting characteristics; lamp substitution circuit for starting, see Figures D.1b and D.2b
Duration of ignition pulse ∆t ms 100
min
Stop of ignition t s 2
max
Ignition voltage U V 1 500
min peak
Equivalent serial resistance @ 2,65 MHz Q-factor > 35
Inductivity @ 2,65 MHz (power coupler substitution circuit) L µH 15 ± 0,5
PC
Capacitance @ 8,0 MHz (power coupler substitution circuit ) C pF 56 ± 5
PC
Operating characteristics; lamp substitution circuit for operating, see

Figures D.1b and D.3b
Equivalent arc resistance @ 2,65 MHz (during operation) EAR Ω 225
Equivalent arc inductance EAL @ 2,65 MHz (during operation) EAL µH 9,0

Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 60

a max.
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French text overleaf
– 24 – 62639  IEC:2012
INDUCTION LAMP
DATA SHEET Page 1
Internally a-type
ILCOS: FSI-85-186/110/56
Nominal system power W 85
Bulb shape A110
Dimensions (mm)
L D B
186,5 ± 2,0 110 ± 1 56 ± 0,3
Lamp electrical characteristics

Frequency Rated power Rated voltage Starting time (max.)

kHz W V s
2 650 ± 10 % 78 ± 8 180 ± 20 2

Test position: Mechanical interface down.
Information for ballast design

Starting characteristics; lamp substitution circuit for starting, see Figures D.1b and D.2b

Duration of ignition pulse Δt ms 100

min
Stop of ignition t s 2
max
Ignition voltage U V 1 100
min peak
Equivalent serial resistance @ 2,65 MHz Q-factor
> 35
Inductivity @ 2,65 MHz (power coupler substitution circuit) L
µH 19,5 ± 1,5
PC
Capacitance @ 8,0 MHz (power coupler substitution circuit ) C pF
56 ± 6
PC
Operating characteristics; lamp substitution circuit for operating, see Figures D.1b and D.3b

Equivalent arc resistance @ 2,65 MHz (during operation) EAR 232
Ω
Equivalent arc inductance EAL @ 2,65 MHz (during operation) EAL 10,6
µH
Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 50

a max.
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French text overleaf
62639  IEC:2012 – 25 –
INDUCTION LAMP
DATA SHEET Page 1
Internally a-type
ILCOS: not commercially available

Nominal system power W 100
Bulb shape A130
Dimensions (mm)
L D B (diameter lamp cap)
207 ± 2 130 ± 1,5 58 ± 0,5
Lamp electrical characteristics

Frequency Rated power Rated voltage Starting time (max.)

kHz W V s
2 650 ± 0,3 % 90 220 ± 20 0,5
Test position: Mechanical interface down.

Information for ballast design

Starting characteristics; lamp substitution circuit for starting, see Figures D.1b and D.2b

Duration of ignition pulse ∆t ms 100

min
Stop of ignition t s 2
max
Ignition voltage U V 1 500
min peak
Equivalent serial resistance @ 2,65 MHz Q-factor > 35

Inductivity @ 2,65 MHz (power coupler substitution circuit) L µH 14 ± 0,5

PC
Capacitance @ 8,0 MHz (power coupler substitution circuit ) C pF 56 ± 5

PC
Operating characteristics; lamp substitution circuit for operating, see

Figures D.1b and D.3b
Equivalent arc resistance @ 2,65 MHz (during operation) EAR Ω 225

Equivalent arc inductance EAL @ 2,65 MHz (during operation) EAL µH 9,0

Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 60

a max.
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– 26 – 62639  IEC:2012
INDUCTION LAMP
DATA SHEET Page 1
Internally a-type
ILCOS: not commercially available

Nominal system power W 150
Bulb shape A140
Dimensions (mm)
L D B (diameter lamp cap)
233 ± 2 140 ± 2 67 ± 0,5
Lamp electrical characteristics

Rated
Frequency
Rated voltage Starting time (max.)
power
kHz W V s
135 1
2 650 ± 0,3 % 220 ± 20
Test position: Mechanical interface down.

Information for ballast design

Starting characteristics; lamp substitution circuit for starting, see Figures D.1b and D.2b

Duration of ignition pulse ∆t ms 100

min
Stop of ignition t s 2
max
Ignition voltage U V 1 500
min peak
Equivalent serial resistance @ 2,65 MHz Q-factor > 35

Inductivity @ 2,65 MHz (power coupler substitution circuit) L µH 14 ± 0,5

PC
Capacitance @ 8,0 MHz (power coupler substitution circuit ) C pF 65 ± 5

PC
Operating characteristics; lamp substitution circuit for operating, see

Figures D.1b and D.3b
Equivalent arc resistance @ 2,65 MHz (during operation) EAR Ω 200
Equivalent arc inductance EAL @ 2,65 MHz (during operation) EAL µH 9,0

Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 60

a max.
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French text overleaf
62639  IEC:2012 – 27 –
INDUCTION LAMP
DATA SHEET Page 1
Internally b-type
ILCOS: FSGI-150-160/213
Nominal system power W 165
Bulb shape R160
Dimensions (mm)
L (height) D (diameter) B (diameter lampbase)

213 160 73,4
Lamp electrical characteristics

Frequency Rated power Rated voltage Starting time (max.)

kHz W V s
135 150 450 1
Test position: Mechanical interface down.

Information for ballast design

Starting and operating characteristics; lamp substitution circuit, see Figures D.1c, D.2c and D.3c.

Duration of ignition pulse ∆t ms 80

min
Stop of ignition* t s 8
max
Ignition voltage U V 1 600
min peak
Magnetising inductance of the 1 core at 25 °C L µH 160 ± 7 %

em
Resistance during operation R Ω 525

d op
Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 50

a max.
* On-time 100 ms ± 20 ms, off-time 500 ms ± 200 ms. Repetition 3 to10 times.

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French text overleaf
– 28 – 62639  IEC:2012
INDUCTION LAMP
DATA SHEET Page 1
Internally a-type
ILCOS: not commercially available

Nominal system power W 165
Bulb shape A130
Dimensions (mm)
L D B (cap diameter)
210,5 ± 3,0 130 ± 1 56 ± 0,3
Lamp electrical characteristics

Frequency Rated power Rated voltage Starting time (max.)

kHz W V s
2 650 ± 10 % 150 ± 15 230 ± 50 2

Test position: Mechanical interface down.
Information for ballast design

Starting characteristics; lamp substitution circuit for starting, see Figures D.1b and D.2b

Duration of ignition pulse Δt ms 100

min
Stop of ignition t s 2
max
Ignition voltage U V 1 100
min peak
Equivalent serial resistance @ 2,65 MHz Q-factor
> 35
Inductivity @ 0,10 MHz (power coupler substitution circuit) L
µH 11,5 ± 0,4
PC
Capacitance @ 8,0 MHz (power coupler substitution circuit ) C pF
70 ± 4
PC
Operating characteristics; lamp substitution circuit for operating, see Figures D.1b and D.3b

Equivalent arc resistance @ 2,65 MHz (during operation) EAR 172
Ω
Equivalent arc inductance EAL @ 2,65 MHz (during operation) EAL 9,2
µH
Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 50

a max.
NOTE In Korea, lamps with different dimensions (L = 233 mm, D = 140 mm,
B = 67 mm, C = 63 mm) are in the market. Tolerances are assumed the same as
for the standard lamp.
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French text overleaf
62639  IEC:2012 – 29 –
INDUCTION LAMP
DATA SHEET Page 1
Internally a-type
ILCOS: not commercially available

Nominal system power W 200
Bulb shape A140
Dimensions (mm)
L D B (cap diameter)
233 ± 2 140 ± 2 67 ± 0,5
Lamp electrical characteristics

Frequency Rated power Rated voltage Starting time (max.)

kHz W V s
250 ± 0,3 % 180 220 ± 20 2
Test position: Mechanical interface down.
Information for ballast design

Starting characteristics; lamp substitution circuit for starting, see Figures D.1b and D.2b

Duration of ignition pulse Δt ms 50

min
Stop of ignition t s 2
max
Ignition voltage U V 2 000
min peak
Equivalent serial resistance @ 2,65 MHz Q-factor -

Inductivity @ 0,10 MHz (power coupler substitution circuit) L -
µH
PC
Capacitance @ 8,0 MHz (power coupler substitution circuit ) C pF -

PC
Operating characteristics; lamp substitution circuit for operating, see Figures D.1b and D.3b

Equivalent arc resistance @ 2,65 MHz (during operation) EAR -
Ω
Equivalent arc inductance EAL @ 2,65 MHz (during operation) EAL -
µH
Information for luminaire design

Maximum lamp ambient temperature (for coupling purpose) t °C 60

a max.
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– 30 – 62639  IEC:2012
INDUCTION LAMP
DATA SHEET Page 1
Internally b-type
ILCOS: FSGI-240-180/326
No
...