SIST EN 60081:1999/A6:2018

SLOVENSKI STANDARD
SIST EN 60081:1999/A6:2018
01-januar-2018
)OXRUHVFHQþQHVLMDONH]GYHPDY]QRåNRPD=DKWHYHJOHGHWHKQLþQLKODVWQRVWL
'RSROQLOR$,(&$
Double-capped fluorescent lamps - Performance specifications (IEC
60081:1997/A6:2017)
Lampes à fluorescence à deux culots - Spécifications de performance (IEC
60081:1997/A6:2017)
Ta slovenski standard je istoveten z: EN 60081:1998/A6:2017
ICS:
29.140.30 )OXRUHVFHQþQHVLMDONH6LMDONH Fluorescent lamps.
Discharge lamps
SIST EN 60081:1999/A6:2018 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 60081:1999/A6:2018

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SIST EN 60081:1999/A6:2018


EUROPEAN STANDARD EN 60081:1998/A6

NORME EUROPÉENNE

EUROPÄISCHE NORM
November 2017
ICS 29.140.30

English Version
Double-capped fluorescent lamps - Performance specifications
(IEC 60081:1997/A6:2017 , modified)
Lampes à fluorescence à deux culots - Spécifications de Zweiseitig gesockelte Leuchtstofflampen - Anforderungen
performance an die Arbeitsweise
(IEC 60081:1997/A6:2017 , modifiée) (IEC 60081:1997/A6:2017 , modifiziert)
This amendment A6 modifies the European Standard EN 60081:1998; it was approved by CENELEC on 2017-09-29. 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 CEN-CENELEC
Management Centre 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 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, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia,
Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden,
Switzerland, Turkey and the United Kingdom.


European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2017 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
 Ref. No. EN 60081:1998/A6:2017 E

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SIST EN 60081:1999/A6:2018
EN 60081:1998/A6:2017
European foreword
The text of document 34A/2014/FDIS, future IEC 60081:1997/A6, 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 60081:1998/A6:2017.
The following dates are fixed:
(dop) 2018-06-29
• latest date by which the document has to be
implemented at national level by
publication of an identical national
standard or by endorsement
(dow) 2020-09-29
• latest date by which the national
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 shall not be held responsible for identifying any or all such patent rights.
Endorsement notice
The text of the International Standard IEC 60081:1997/A6:2017 was approved by CENELEC as a
European Standard without any modification.
2

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SIST EN 60081:1999/A6:2018



IEC 60081

®


Edition 5.0 2017-08




INTERNATIONAL



STANDARD




NORME



INTERNATIONALE




A MENDMENT 6

AM ENDEMENT 6





Double-capped fluorescent lamps –

Performance specifications




Lampes à fluorescence à deux culots –

Prescriptions de performance















INTERNATIONAL

ELECTROTECHNICAL

COMMISSION


COMMISSION

ELECTROTECHNIQUE


INTERNATIONALE




ICS 29.140.30 ISBN 978-2-8322-4738-9



Warning! Make sure that you obtained this publication from an authorized distributor.

Attention! Veuillez vous assurer que vous avez obtenu cette publication via un distributeur agréé.

® Registered trademark of the International Electrotechnical Commission
Marque déposée de la Commission Electrotechnique Internationale

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SIST EN 60081:1999/A6:2018
– 2 – IEC 60081:1997/AMD6
© IEC 2017
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/2014/FDIS 34A/2026/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 stability date indicated on the IEC website 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.


___________

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SIST EN 60081:1999/A6:2018
IEC 60081:1997/AMD6 – 3 –
© IEC 2017
INSTRUCTIONS POUR L’INSERTION DES INSTRUCTIONS FOR THE
NOUVELLES PAGES ET FEUILLES INSERTION OF NEW PAGES
DE CARACTÉRISTIQUES DANS LA AND DATA SHEETS
PUBLICATION IEC 60081 IN PUBLICATION IEC 60081
----------------------- -----------------------
1. Retirer la page de titre existante et la 1. Remove existing title page and page E-2,
page E-1, et insérer la nouvelle page de and insert in their places the new title
titre, et les nouvelles pages E-1, E-3 et E- page and pages E-2, E-4 and E-6.
5.

2. Remplacer les feuilles de caractéristiques: 2. Replace the lamp data sheets:

1020-3 (pages 1/2/3) 1020-3 (pages 1/2/3)
par 1020-4 (pages 1/2/3) with 1020-4 (pages 1/2/3)
1030-3 (pages 1/2/3) 1030-3 (pages 1/2/3)
par 1030-4 (pages 1/2/3) with 1030-4 (pages 1/2/3)
1040-3 (pages 1/2/3) 1040-3 (pages 1/2/3)
par 1040-4 (pages 1/2/3) with 1040-4 (pages 1/2/3)
1060-3 (pages 1/2/3) 1060-3 (pages 1/2/3)
par 1060-4 (pages 1/2/3) with 1060-4 (pages 1/2/3)
2120-2 (pages 1/2/3) 2120-2 (pages 1/2/3)
par 2120-3 (pages 1/2/3) with 2120-3 (pages 1/2/3)
2220-2 (pages 1/2/3) 2220-2 (pages 1/2/3)
par 2220-3 (pages 1/2/3/4) with 2220-3 (pages 1/2/3/4)
2320-2 (pages 1/2/3) 2320-2 (pages 1/2/3)
par 2320-3 (pages 1/2/3) with 2320-3 (pages 1/2/3)
2420-2 (pages 1/2/3) 2420-2 (pages 1/2/3)
par 2420-3 (pages 1/2/3/4) with 2420-3 (pages 1/2/3/4)
2425-2 (pages 1/2/3) 2425-2 (pages 1/2/3)
par 2425-3 (pages 1/2/3) with 2425-3 (pages 1/2/3)
2520-2 (pages 1/2/3) 2520-2 (pages 1/2/3)
par 2520-3 (pages 1/2/3/4) with 2520-3 (pages 1/2/3/4)
2620-2 (pages 1/2/3) 2620-2 (pages 1/2/3)
par 2620-3 (pages 1/2/3) with 2620-3 (pages 1/2/3)
6520-6 (pages 1/2/3) 6520-6 (pages 1/2/3)
par 6520-7 (pages 1/2/3) with 6520-7 (pages 1/2/3)
6530-6 (pages 1/2/3) 6530-6 (pages 1/2/3)
par 6530-7 (pages 1/2/3) with 6530-7 (pages 1/2/3)
6620-5 (pages 1/2/3) 6620-5 (pages 1/2/3)
par 6620-6 (pages 1/2/3) with 6620-6 (pages 1/2/3)
6640-6 (pages 1/2/3) 6640-6 (pages 1/2/3)
par 6640-7 (pages 1/2/3) with 6640-7 (pages 1/2/3)
6650-6 (pages 1/2/3) 6650-6 (pages 1/2/3)
par 6650-7 (pages 1/2/3) with 6650-7 (pages 1/2/3)
6730-5 (pages 1/2/3) 6730-5 (pages 1/2/3)
par 6730-6 (pages 1/2/3) with 6730-6 (pages 1/2/3)
6750-5 (pages 1/2/3) 6750-5 (pages 1/2/3)
par 6750-6 (pages 1/2/3) with 6750-6 (pages 1/2/3)
6840-5 (pages 1/2/3) 6840-5 (pages 1/2/3)
par 6840-6 (pages 1/2/3) with 6840-6 (pages 1/2/3)
6850-6 (pages 1/2/3) 6850-6 (pages 1/2/3)
par 6850-7 (pages 1/2/3) with 6850-7 (pages 1/2/3)

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SIST EN 60081:1999/A6:2018
– 4 – IEC 60081:1997/AMD6
© IEC 2017
Annex E
(informative)

Information for ballast and starter design
E.1 General
In order to safeguard proper functioning of the lamp, the relevant information, given on the
lamp data sheet and in Annex E, should be taken into account when designing ballasts and
starters.
E.2 Prestarting conditions for high frequency operated lamps
For lamps operated on high frequency and having preheated cathodes, the requirements for
proper preheating are specified on the relevant lamp data sheet. An explanation of these
requirements is given in Annex D of IEC 60929 and in Annex B of IEC 60927.
For some lamps, additional information concerning high frequency non-preheat starting
requirements is given on the relevant lamp data sheet.
E.3 Frequency to be used for high frequency operated lamps
For lamps designed for operation on high frequency, the lamp data sheets specify a frequency
range for the reference ballast and for the testing of lamps (starting, electrical and
photometric characteristics). This frequency range has been chosen for ease of reproducing
test results and is not intended to restrict the design of high frequency ballasts, where for
practical reasons a higher frequency may be appropriate.
E.4 Tolerable DC-offset during preheat
The peak-peak value of the open-circuit voltage shall be less than or equal to 2,8 times the
maximum r.m.s value of the open-circuit voltage for t ≤ t . Narrow voltage peaks during the
s
first half period of the mains voltage after switching on preheat shall be disregarded when
testing the control gear in accordance with Clause E.4.
The DC-offset (mean value) of the open-circuit voltage shall not exceed the r.m.s. open circuit
voltage for t ≤ t as specified on the relevant lamp data sheet. In cases where the r.m.s. open
s
circuit voltage for t ≤ t is specified to less than 200 V, the DC-offset of the open-circuit
s
voltage shall be less than or equal to 200 V.
E.5 Tolerances on substitution resistors
E.5.1 Lamp electrode substitution resistors
The tolerance for the resistance values of electrode substitution resistors shall be ±1 % of the
resistance value or better.
Non-inductive resistors are recommended as substitution resistors.
E.5.2 Lamp impedance substitution resistors
The tolerance for the resistance values of the substitution resistors for the lamp discharge
impedance shall be ±5 % of the resistance value or better.

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SIST EN 60081:1999/A6:2018
IEC 60081:1997/AMD6 – 5 –
© IEC 2017
Non-inductive resistors are recommended as substitution resistors.
E.6 Maximum asymmetric power
Lamp caps may overheat at the end of the lamp life cycle. Limiting the power available to the
electrodes at the end of the life cycle is considered as a way for the controlgear to mitigate
this risk. The maximum control gear asymmetric power available to the electrodes should be
equal or less than the power listed in Table E.1.
Table E.1 – Maximum asymmetric power
Sheet number Nominal power Nominal Cap Maximum
60901-IEC- dimensions asymmetric power
W mm W
1020 4 16 × 150 G5 7,5
1030 6 G5 7,5
16 × 225
1040 8 G5 7,5
16 × 300
1060 13 G5 7,5
16 × 525
2120 15 26 × 450 G13 10
2215 15 G13 10
26 × 550
2220 18 G13 10
26 × 600
2230 20 32 × 600 G13 10
2240 20 38 × 600 G13 10
2315 25 38 × 970 G13 10
2320 30 G13 10
26 × 900
2340 30 G13 10
38 × 900
2420 36 26 × 1 200 G13 10
2425 38 26 × 1 050 G13 10
2430 40 32 × 1 200 G13 10
2440 40 G13 10
38 × 1 200
2520 58 G13 10
26 × 1 500
2530 65 32 × 1 500 G13 10
2540 65 38 × 1 500 G13 10
2620 70 26 × 1 800 G13 10
2640 75 G13 10
38 × 1 800
2660 80 G13 10
38 × 1 500
2670 85 38 × 1 800 G13 10
2840 100 38 × 2 400 G13 10
2880 125 38 × 2 400 G13 10
3020 4 G5 7,5
16 × 150
3030 6 16 × 225 G5 7,5
3040 8 16 × 300 G5 7,5
4240 20 G13 10
38 × 600
4340 30 G13 10
38 × 900
4440 40 38 × 1 200 G13 10
4540 65 38 × 1 500 G13 10
4640 75 38 × 1 800 G13 10
4660 80 G13 10
38 × 1 500
4670 85 G13 10
38 × 1 800
4880 125 38 × 2 400 G13 10

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SIST EN 60081:1999/A6:2018
– 6 – IEC 60081:1997/AMD6
© IEC 2017
Nominal power Cap
Sheet number Nominal Maximum
60901-IEC- dimensions asymmetric power
W mm W
5230 20 32 × 600 G13 10
5240 20 38 × 600 G13 10
5340 30 38 × 900 G13 10
5430 40 G13 10
32 × 1 200
5440 40 G13 10
38 × 1 200
5540 65 38 × 1 500 G13 10
5840 85 38 × 2 400 G13 10
5960 60 38 × 1 200 R17d 10
5970 87 R17d 10
38 × 1 800
5980 112 R17d 10
38 × 2 400
6030 6 7 × 220 W4.3 3,5
6040 8 7 × 320 W4.3 3,5
6050 11 W4.3 3,5
7 × 420
6060 13 W4.3 3,5
7 × 520
6520 14 16 × 550 G5 7,5
6530 21 G5 7,5
16 × 850
6620 24 G5 7,5
16 × 550
6640 28 G5 7,5
16 × 1 150
6650 35 16 × 1 450 G5 7,5
6730 39 16 × 850 G5 7,5
6750 49 G5 7,5
16 × 1 450
6840 54 G5 7,5
16 × 1 150
6850 80 G5 7,5
16 × 1 450
7220 16 26 × 600 G13 10
7420 32 26 × 1 200 G13 10
7520 50 G13 10
26 × 1 500
8240 20 38 × 600 Fa6 10
8440 40 38 × 1 200 Fa6 10
8540 65 Fa6 10
38 × 1 500
8640 39 Fa8 10
38 × 1 200
8740 57 38 × 1 800 Fa8 10
8840 75 38 × 2 400 Fa8 10
9420 32 26 × 1 200 Fa6 10
9520 50 Fa6 10
26 × 1 500

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SIST EN 60081:1999/A6:2018
IEC 60081:1997/AMD6 – 7 –
© IEC 2017


DOUBLE-CAPPED FLUORESCENT LAMP



Page 1

DATA SHEET




ILCOS: FD-4-E-G5-16/150

Nominal power Circuit Cathode Cap Nominal dimensions
W mm
4 With starter Preheated G5
16 × 150


Dimensions
mm
A B C D
Max. Min. Max. Max. Max.
135,9 140,6 143,0 150,1 16,0


Starting characteristics
Frequency Ballast rated voltage Test voltage (r.m.s.) Starting time
Hz V V s
50 110/120 103,5 30
60 110/120 103,5 30


Electrical characteristics
Frequency Rated power Voltage (r.m.s.) at lamp terminals Rated lamp Rated preheat
 V current current
Hz W Rated Minimum Maximum A A
50 4,5 29 24 34 0,170 0,205
60 4,5 29 24 34 0,170 0,205

Chromaticity co-ordinates: See Clause D.2.

Cathode characteristics
Test current Resistance of each cathode
A Ω
Rated Minimum Maximum
0,110 80 60 100
NOTE In Japan, the rated resistance of each cathode is 90 Ω and maximum is 120 Ω.



Texte français au verso Publication IEC 60081
French text overleaf IEC Publication 60081
60081-IEC-1020-4

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

SIST EN 60081:1999/A6:2018
– 8 – IEC 60081:1997/AMD6
© IEC 2017


DOUBLE-CAPPED FLUORESCENT LAMP


Page 2
DATA SHEET




ILCOS: FD-4-E-G5-16/150

Reference ballast characteristics
Frequency Nominal power Rated voltage Calibration current Voltage/current Power factor
ratio
Hz W V A
Ω
50 6 127 0,160 700 0,12
60 6 118 0,160 650 0,075

Information for ballast design
Frequency Hz 50 60
Preheat cathode current A Min. 0,144 0,144
 Max. 0,275 0,275
Open circuit voltage across starter V Min. (r.m.s.) 103,5 103,5
Open circuit voltage across lamp V Max. (peak) 400 400
140 140
Substitution resistor for both cathodes in series Ω
Voltage across starter with lamp operating V Max. (r.m.s.) 68 68

Information for starter design
Pulse voltage Non-reclosure voltage
V V
Minimum Maximum
250 70

Texte français au verso Publication IEC 60081
French text overleaf IEC Publication 60081
60081-IEC-1020-4

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

SIST EN 60081:1999/A6:2018
IEC 60081:1997/AMD6 – 9 –
© IEC 2017




DOUBLE-CAPPED FLUORESCENT LAMP

Page 3



DATA SHEET


ILCOS: FD-4-E-G5-16/150
Information for high frequency ballast design

HF measurement ballast characteristics
Frequency Nominal power Rated voltage Calibration current Resistance
kHz W V A Ω
20 to 26 4 48 150 160
Typical lamp characteristics
Frequency Lamp power Lamp voltage Lamp current
kHz W V A
3,6 24 0,15
≥ 20

Frequency kHz
≥ 20
Normal operation
Min. 0,090
Lamp operating current I A
D
Max. 0,180
Current in any lead to cathodes  A Max. 0,190
Dimming operation
Min. 0,015
Lamp operating current I A
D
Max. 0,090
2 2 2
Minimum sum of squares lead I + I = X – Y I X A 0,022
LH LL 1 1 D 1
2
currents
A

2 2
Target sum of squares lead currents I + I = X – 0,3 Y I Y A 0,205
LH LL 1 1 D 1
2
X A 0,030
Maximum sum of squares lead
2 2 2 2
I + I = X – Y I A
LH LL 2 2 D
currents
Y A -0,050
2
I A Max. 0,190
LH
Current in any lead to cathodes
I A Max. 0,120
LL
R 80
Ω
Test1
Substitution resistor for each cathode for testing dimming requirements
R Ω 90
Test2
Min. 1 500
10 % R
Ω
10
Max. 1 800
Lamp substitution resistor at n % of the test current n =
30 % R Nominal 510
Ω
30
60 % R Ω Nominal 240
60

Starting requirements with cathode preheating, for starting times 0,4 s < t < 3,0 s
s
Q (J) 1,0
min
Minimum cathode preheat energy E = Q + P t J
min min min s
P (W) 0,7
min
Voltage across each cathode for E(t) < E V Max.(r.m.s.) 11
min
Substitution resistor for each cathode, for testing minimum cathode preheat 50
Ω
requirements
Q (J) 1,5
max
Maximum cathode preheat energy E = Q + P t J
max max max s
P (W) 1,1
max
Substitution resistor for each cathode, for testing maximum cathode preheat 65
Ω
requirements
Non-ignition voltage Max.(r.m.s.) 90
t ≤ t
s
Open circuit voltage across lamp
V Min.(r.m.s.) 160
t > t (+10 °C)
s
(with starting aid)
Ignition voltage
t > t (-15 °C) Min.(r.m.s.) 220
s
Substitution resistor range for each cathode, for testing open circuit voltage 50……150
Ω
requirements


Texte français au verso Publication IEC 60081
French text overleaf IEC Publication 60081
60081-IEC-1020-4

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

SIST EN 60081:1999/A6:2018
– 10 – IEC 60081:1997/AMD6
© IEC 2017




DOUBLE-CAPPED FLUORESCENT LAMP

Page 1



DATA SHEET


ILCOS: FD-6-E-G5-16/225

Nominal power Circuit Cathode Cap Nominal dimensions
W mm
6 With starter Preheated G5
16 × 225


Dimensions
mm
A B C D
Max. Min. Max. Max. Max.
212,1 216,8 219,2 226,3 16,0


Starting characteristics
Frequency Ballast rated voltage Test voltage (r.m.s.) Starting time
Hz V V s
50 110/120 103,5 30
60 110/120 103,5 30


Electrical characteristics
Frequency Rated power Voltage (r.m.s.) at lamp terminals Rated lamp Rated preheat
 V current current
Hz W Rated Minimum Maximum A A
50 6 42 36 48 0,160 0,205
60 6 42 36 48 0,160 0,205

Chromaticity co-ordinates: See Clause D.2.

Cathode characteristics
Test current Resistance of each cathode
A Ω
Rated Minimum Maximum
0,110 80 60 100
NOTE In Japan, the rated resistance of each cathode is 90 Ω and maximum is 120 Ω.



Texte français au verso 60081-IEC-1030-4 Publication IEC 60081
French text overleaf IEC Publication 60081

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

SIST EN 60081:1999/A6:2018
IEC 60081:1997/AMD6 – 11 –
© IEC 2017




DOUBLE-CAPPED FLUORESCENT LAMP

Page 2



DATA SHEET


ILCOS: FD-6-E-G5-16/225


Reference ballast characteristics
Frequency Nominal power Rated voltage Calibration current Voltage/current Power factor
ratio
Hz W V A
Ω
50 6 127 0,160 700 0,12
60 6 118 0,160 650 0,075

Information for ballast design
Frequency Hz 50 60
Preheat cathode current A Min. 0,144 0,144
 Max. 0,275 0,275
Open circuit voltage across starter V Min. (r.m.s.) 103,5 103,5
Open circuit voltage across lamp V Max. (peak) 400 400
140 140
Substitution resistor for both cathodes in series Ω
Voltage across starter with lamp operating V Max. (r.m.s.) 68 68

Information for starter design
Pulse voltage Non-reclosure voltage
V V
Minimum Maximum
250 70




Texte français au verso Publication IEC 60081
60081-IEC-1030-4
French text overleaf IEC Publication 60081

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

SIST EN 60081:1999/A6:2018
– 12 – IEC 60081:1997/AMD6
© IEC 2017


DOUBLE-CAPPED FLUORESCENT LAMP



Page 3

DATA SHEET



ILCOS: FD-6-E-G5-16/225
Information for high frequency ballast design

HF measurement ballast characteristics
Frequency Nominal power Rated voltage Calibration current Resistance
kHz W V A Ω
20 to 26 6 72 150 240
Typical lamp characteristics
Frequency Lamp power Lamp voltage Lamp current
kHz W V A
5,4 36 0,15
≥ 20

Frequency kHz
≥ 20
Normal operation
Min. 0,090
Lamp operating current I A
D
Max. 0,180
Current in any lead to cathodes  A Max. 0,190
Dimming operation
Min. 0,015
Lamp operating current I A
D
Max. 0,090
2 2 2
Minimum sum of squares lead I + I = X – Y I X A 0,022
LH LL 1 1 D 1
2
currents
A

2 2
Target sum of squares lead currents I + I = X – 0,3 Y I Y A 0,205
LH LL 1 1 D 1
2
X A 0,030
Maximum sum of squares lead
2 2 2 2
I + I = X – Y I A
LH LL 2 2 D
currents
Y A -0,050
2
I A Max. 0,190
LH
Current in any lead to cathodes
I A Max. 0,120
LL
R 80
Ω
Test1
Substitution resistor for each cathode for testing dimming requirements
R Ω 90
Test2
Min. 2 400
10 % R Ω
10
Max. 3 000
Lamp substitution resistor at n % of the test current n =
30 % R Nominal 820
Ω
30
60 % R Ω Nominal 360
60

Starting requirements with cathode preheating, for starting times 0,4 s < t < 3,0 s
s
Q (J) 1,0
min
Minimum cathode preheat energy E = Q + P t J
min min min s
P (W) 0,7
min
Voltage across each cathode for E(t) < E V Max.(r.m.s.) 11
min
Substitution resistor for each cathode, for testing minimum cathode preheat 50
Ω
requirements
Q (J) 1,5
max
Maximum cathode preheat energy E = Q + P t J
max max max s
P (W) 1,1
max
Substitution resistor for each cathode, for testing maximum cathode preheat 65
Ω
requirements
Non-ignition voltage Max.(r.m.s.) 100
t ≤ t
s
Open circuit voltage across lamp
V t > t (+10 °C) Min.(r.m.s.) 185
s
(with starting aid) Ignition voltage
Min.(r.m.s.) 250
t > t (-15 °C)
s
Substitution resistor range for each cathode, for testing open circuit voltage 50……150
Ω
requirements


Texte français au verso 60081-IEC-1030-4 Publication IEC 60081
French text overleaf IEC Publication 60081

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

SIST EN 60081:1999/A6:2018
IEC 60081:1997/AMD6 – 13 –
© IEC 2017




DOUBLE-CAPPED FLUORESCENT LAMP

Page 1


DATA SHEET


ILCOS: FD-8-E-G5-16/300

Nominal power Circuit Cathode Cap Nominal dimensions
W mm
8 With starter Preheated G5
16 × 300


Dimensions
mm
A B C D
Max. Min. Max. Max. Max.
288,3 293,0 295,4 302,5 16,0


Starting characteristics
Frequency Ballast rated voltage Test voltage (r.m.s.) Starting time
Hz V V s
50 110/120 103,5 30
60 110/120 103,5 30


Electrical characteristics
Frequency Rated power Voltage (r.m.s.) at lamp terminals Rated lamp Rated preheat
 V current current
Hz W Rated Minimum Maximum A A
50 7,1 56 48 64 0,145 0,205
60 7,2 57 48 64 0,145 0,205

Chromaticity co-ordinates: See Clause D.2.

Cathode characteristics
Test current Resistance of each cathode
A Ω
Rated Minimum Maximum
0,110 80 60 100
NOTE In Japan, the minimum resistance of each cathode is 50 Ω and maximum is 110 Ω.



Texte français au verso Publication IEC 60081
60081-IEC-1040-4
French text overleaf IEC Publication 60081

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

SIST EN 60081:1999/A6:2018
– 14 – IEC 60081:1997/AMD6
© IEC 2017




DOUBLE-CAPPED FLUORESCENT LAMP

Page 2



DATA SHEET



ILCOS: FD-8-E-G5-16/300

Reference ballast characteristics
Frequency Nominal power Rated voltage Calibration current Voltage/current Power factor
ratio
Hz W V A
Ω
50 6 127 0,160 700 0,12
60 6 118 0,160 650 0,075

Information for ballast design
Frequency Hz 50 60
Preheat cathode current A Min. 0,144 0,144
 Max. 0,275 0,275
Open circuit voltage across starter V Min. (r.m.s.) 103,5 103,5
Open circuit voltage across lamp V Max. (peak) 400 400
140 140
Substitution resistor for both cathodes in series Ω
Voltage across starter with lamp operating V Max. (r.m.s.) 68 68

Information for starter design
Pulse voltage Non-reclosure voltage
V V
Minimum Maximum
250 70




60081-IEC-1040-4
Texte français au verso Publication IEC 60081
French text overleaf IEC Publication 60081

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

SIST EN 60081:1999/A6:2018
IEC 60081:1997/AMD6 – 15 –
© IEC 2017




DOUBLE-CAPPED FLUORESCENT LAMP

Page 3



DATA SHEET


ILCOS: FD-8-E-G5-16/300
Information for high frequency ballast design

HF measurement ballast characteristics
Frequency Nominal power Rated voltage Calibration current Resistance
kHz W V A Ω
20 to 26 8 100 150 333
Typical lamp characteristics
Frequency Lamp power Lamp voltage Lamp current
kHz W V A
≥ 20 7,5 50 0,15

Frequency kHz ≥ 20
Normal operation
Min. 0,090
Lamp operating current I A
D
Max. 0,180
Current in any lead to cathodes  A Max. 0,190
Dimming operation
Min. 0,015
Lamp operating current I A
D
Max. 0,090
2 2 2
Minimum sum of squares lead I + I = X – Y I X A 0,022
LH LL 1 1 D 1
2
currents
A

2 2
Target sum of squares lead currents I + I = X – 0,3 Y I Y A 0,205
LH LL 1 1 D 1
2
X A 0,030
Maximum sum of squares lead
2 2 2 2
I + I = X – Y I A
LH LL 2 2 D
currents
Y A -0,050
2
I A Max. 0,190
LH
Current in any lead to cathodes
I A Max. 0,120
LL
R Ω 80
Test1
Substitution resistor for each cathode for testing dimming requirements
R 90
Ω
Test2
Min. 3 300
10 % R Ω
10
Max. 5 100
Lamp substitution resistor at n % of the test current n =
30 % R Ω Nominal 1 200
30
60 % R Nominal 560
Ω
60

Starting requirements with cathode preheating, for starting times 0,4 s < t < 3,0 s
s
Q (J) 1,0
min
Minimum cathode preheat energy E = Q + P t J
min min min s
P (W) 0,7
min
Voltage across each cathode for E(t) < E V Max.(r.m.s.) 11
min
Substitution resistor for each cathode, for testing minimum cathode preheat Ω 50
requirements
Q (J) 1,5
max
Maximum cathode preheat energy E = Q + P t J
max max max s
P (W) 1,1
max
Substitution resistor for each cathode, for testing maximum cathode preheat Ω 65
requirements
Non-ignition voltage Max.(r.m.s.) 100
t ≤ t
s
Open circuit voltage across lamp
V t > t (+10 °C) Min.(r.m.s.) 200
s
(with starting aid)
Ignition voltage
Min.(r.m.s.) 280
t > t (-15 °C)
s
Substitution resistor range for each cathode, for testing open circuit voltage Ω 50……150
requirements


Texte français au verso Publication IEC 60081
60081-IEC-1040-4
French text overleaf IEC Publication 60081

---------------------- Page: 19 ----------------------

SIST EN 60081:1999/A6:2018
– 16 – IEC 60081:1997/AMD6
© IEC 2017




DOUBLE-CAPPED FLUORESCENT LAMP

Page 1


DATA SHEET



ILCOS: FD-13-E-G5-16/525

Nominal power Circuit Cathode Cap Nominal dimensions
W mm
13 With starter Preheated G5
16 × 525


Dimensions
mm
A B C D
Max. Min. Max. Max. Max.
516,9 521,6 524,0 531,1 16,0


Starting characteristics
Frequency Ballast rated voltage Test voltage (r.m.s.) Starting time
Hz V V s
50 220 198 30
60 220 198 30


Electrical characteristics
Frequency Rated power Voltage (r.m.s.) at lamp terminals Rated lamp Rated preheat
 V current current
Hz W Rated Minimum Maximum A A
50 13 95 85 105 0,165 0,225
60 13 95 * * 0,165 0,225

Chromaticity co-ordinates: See Clause D.2.

Cathode characteristics
Test current Resistance of each cathode
A Ω
Rated Minimum Maximum
0,110 80 60 100



* Under consideration



Texte français au verso 60081-IEC-1060-4 Publication IEC 60081
French text overleaf IEC Publication 60081

---------------------- Page: 20 ----------------------

SIST EN 60081:1999/A6:2018
IEC 60081:1997/AMD6 – 17 –
© IEC 2017



DOUBLE-CAPPED FLUORESCENT LAMP

Page 2




DATA SHEET


ILCOS: FD-13-E-G5-16/525


Reference ballast characteristics
Frequency Nominal power Rated voltage Calibration current Voltage/current Power factor
ratio
Hz W V A
Ω
50 13 220 0,165 1 070 0,12
60 13 236 0,165 1 200 0,075

Information for ballast design
Frequency Hz 50 60
Preheat cathode current A Min. 0,146 0,146
 Max. 0,297 0,297
Open circuit voltage across starter V Min. (r.m.s.) 198  198
Open circuit voltage across lamp V Max. (peak) 400 400
140 140
Substitution resistor for both cathodes in series Ω
Voltage across starter with lamp operating V Max. (r.m.s.) 128 128

Information for starter design
Pulse voltage Non-reclosure voltage
V V
Minimum Maximum
400 140





Texte français au verso Publication IEC 60081
60081-IEC-1060-4
French text overleaf IEC Publication 60081

---------------------- Page: 21 ----------------------

SIST EN 60081:1999/A6:2018
– 18 – IEC 60081:1997/AMD6
© IEC 2017




DOUBLE-CAPPED FLUORESCENT LAMP

Page 3



DATA SHEET



ILCOS: FD-13-E-G5-16/525
Information for high frequency ballast design

HF measurement ballast characteristics
Frequency Nominal power Rated voltage Calibration current Resistance
kHz W V A
Ω
20 to 26 13 170 150 567
Typical lamp characteristics
Frequency Lamp power Lamp voltage Lamp current
kHz W V A
≥ 20 12,8 85 0,15

Frequency kHz
≥ 20
Normal operation
Min. 0,090
Lamp operat
...