GB 15766.1-2000 Dimensions and photoelectric performance requirements of filament lamps for road motor vehicles
Some standard content:
GB15766.1—2000
IECForeword
1 Overview
1.1 Scope
1.2 Reference standards
.3 Definitions..
1.4 Numbering system for filament lamp data sheets 2 Requirements and test conditions
General requirements·
2.2 Lamp marking·
2.3 Glass bulb
2.4 Glass bulb color
2.5 Filament lamp dimensions
Requirements for initial optoelectronic properties·
Inspection of optical quality
2.9 Standard filament lamps
3 Sampling and qualification conditions
3.1 Sampling and acceptance level for manufacturer’s test records 3.2 Minimum requirements for on-site inspection by the management authority 3.3 Acceptance conditions for on-site inspection
4 Filament lamp data sheet
4.1 List of specific filament lamp varieties
Appendix A (Standard Appendix)
Appendix B (Standard Appendix)
Appendix C (Standard Appendix)
Appendix D (Standard Appendix)
Appendix E (Standard Appendix)
Appendix F (Standard Appendix)
Shape, length and position of the filament
Test conditions for photoelectric performance.
Measuring method for internal parts of R2 lamp
++0+++
800000500100000006
F0a50e5OOee5ee
Measuring method for internal parts of H4 and HS1 lamps…Measuring method for internal parts of HB1 lamps
GB15766.1—2000
All technical contents of this standard are mandatory.
This standard is equivalent to the second edition of December 1995 and the first revision in 1996 of IEC60809 "Road Motor Vehicle Filament Lamps-Dimensional and Photoelectric Performance Requirements" of the International Electrotechnical Commission. The loose-leaf numbers, illustrations and identification drawing numbers of this standard are consistent with those of IEC. Since the contents, parameters and tolerance limits of the filament lamp data sheet of the second edition of the EC60809 standard and the first revision in 1996 are consistent with the same type of lamps in the ECE37 regulation of the Economic Commission for Europe, and the IEC60809 standard and the ECE37 regulation also directly specify and reference each other's entire chapter or appendix, it is equivalent to the second edition of the IEC60809 standard and the first revision in 1996, which basically covers all the technical requirements for lamps in the ECE37 regulation except for the certification procedures and management provisions.
This standard has changed significantly compared to the first edition in 1995. In addition to eliminating the three types of filament lamps F1, F2 and F3, eight new types of filament lamps, H7, HB3, HB4, H21WH27W/1, H27W/2, W21/5W and W21W, have been added. Moreover, the test voltage (value) of R2 bulbs is changed from nominal voltage (value) to test voltage (value). For example, in the first edition, the test voltage of R212V45/40W bulb is 13.2V, but when measuring its power and luminous flux, the standard stipulates that its nominal voltage of 12V is used. In this edition, the test voltage of 13.2V is used "real" when measuring its power and luminous flux. The rated values of power and luminous flux (called target values in the first edition) are also increased accordingly. In addition, the layout format has changed significantly. The original first edition had 7 chapters, and the second edition is now compressed into 4 chapters. The original Chapter 2 Sampling and the original Chapter 4 Qualification Conditions have been cancelled and merged into the current Chapter 3 Sampling and Qualification Conditions. In IEC60809, this chapter is a "blank chapter" without specific clauses, that is, no specific clauses are given, only stating that in relevant regulations such as ECE37, Chapter 3 of this standard adopts the provisions of Appendix 7, Appendix 8 and Appendix 9 of ECE37. The requirements for standard lamps in the original Chapter 6 and the data leaflet for standard lamps in Chapter 7 have been cancelled, and the contents have been merged into the data leaflets for the corresponding types of lamps in the original Chapter 5, now Chapter 4. The contents of the measurement of the internal parts of HS1 lamps have been added to Appendix E. In addition, a standard Appendix F, i.e. the measurement method of the internal parts of HB1 lamps, has been added.
In this standard, "high-power filament" replaces "main filament" and "low-power filament" replaces "auxiliary filament" in double-filament lamps used as signal devices. The terms "reference luminous flux" and "measured luminous flux" are no longer used, but "test luminous flux" is used instead. GB15766, under the general title of "Filament lamps for road motor vehicles", includes the following three parts: Part 1 (GB15766.1): Dimensions and photoelectric performance requirements; Part 2 (GB/T15766.2): Performance requirements; Part 3 (GB/T15766.3): Auxiliary lamps. Appendix A, Appendix B, Appendix C, Appendix D, Appendix E and Appendix F of this standard are all appendices of the standard. This standard will replace GB15766.1-1995 from the date of implementation. This standard is proposed by the State Bureau of Light Industry.
This standard is under the jurisdiction of the Electric Light Source and Its Accessories Branch of the National Technical Committee for Standardization of Lighting Appliances. This standard was drafted by Anyang Light Bulb Factory, Henan Province. The main drafters of this standard are: Wu Sanduo, Ma Wensong, Zhang Hui. 1
GB15766.1-2000
IEC Foreword
1) IEC (International Electrotechnical Commission) is a global standardization organization composed of electrotechnical committees (IEC national committees) from all over the world. The purpose of IEC is to promote international cooperation on standard issues in the electrical and electronic fields. For this purpose, among other activities, EC also publishes international standards. The formulation of standards is entrusted to various sub-technical committees: any EC national committee that is interested in the subject under discussion can participate in the formulation of the standard. All countries, governments and non-governmental organizations that have liaison relations with the IEC can also participate in the work of standard setting. There are mutual agreements and close cooperation between the IEC and the International Organization for Standardization (ISO). 2) The formal resolutions and agreements of the EC on technical issues express the international consensus on various issues to the greatest extent possible, because each technical committee has representatives from the national committees interested in it. 3) Recommended standards, technical specifications, technical reports or guidelines published for international use are adopted by national committees in a sense.
4) In order to promote international unification, IEC national committees should ensure that IEC international standards are adopted to the greatest extent possible in their national and regional standards. Any differences between IEC standards and national or regional standards should be clearly stated in the latter. 5) The IEC committee does not provide any mark indicating certification of conformity and is not responsible for any equipment claiming that it conforms to a standard of the IEC committee.
International standard IEC60809 has been developed by IEC34 Technical Committee "Light Bulbs and Related Accessories" Sub-Technical Committee 34A "Light Bulbs".
This second edition cancels and replaces the 1985 first edition, the first amendment (1987), the second amendment (1989) and the third amendment (1992), and constitutes a technically revised edition.
This edition of this standard is based on the first edition, Amendments 1, 2 and 3 and the following documents: DIS
34A/592/DIS
Voting Report
34A/626/RVD
Full information on the balloting of this standard can be found in the balloting report indicated in the table above. IEC Foreword (First Amendment 1996)
This revision has been prepared by Technical Committee 34, "Lamps and Related Accessories", Subcommittee 34A, "Lamps". The text of this revision is based on the following documents:
34A/653/FDIS
Voting Report
34A/686/RVD
The full information on the voting for this revision can be found in the voting report indicated in the table above. N
1 Overview
1.1 Scope
National Standard of the People's Republic of China
Filament lamps for road vehicles-Dimensional, electrical and luminous requirements
Filament lamps for road vehicles-Dimensional, electrical and luminous requirements GB 15766.1—2000
idtIEC 60809:1995
Replaces GB 15766.1—1995
This standard applies to filament lamps used as headlamps, fog lamps and signal lamps for road motor vehicles and specifies the test methods and technical requirements for basic interchangeability (dimensions and optoelectronic properties). It applies to those lamps covered by regulations. In particular, it includes those lamps covered by Regulation No. 37 of the Geneva Agreement of March 20, 1958 of the United Nations Economic Commission for Europe (ECE) on the application of uniform conditions of approval and mutual recognition of approval of equipment and components for road motor vehicles. Note: For road motor vehicle lighting equipment, the term "filament lamp" is generally used to refer to incandescent lamps (see ISO 7227 and ECE Regulation No. 37). This standard takes this into account.
Specific filament lamp varieties are listed in Chapter 4. This standard serves as the basis for evaluating consistency. This standard includes the following specific contents:
a) Requirements for mass-produced filament lamps. b) Requirements for standard filament lamps.
The requirements for filament lamps, such as life, lumen maintenance, torsion strength, and resistance to vibration and impact, are specified in GB/T15766.2.
Information such as temperature limits and maximum dimensions of filament lamps are also included in GB/T15766.2 to guide the design of lighting devices. GB/T15766.2 is not used as a basis for the authoritative body to determine the type approval or batch product consistency. Filament lamps for road motor vehicles for auxiliary purposes that are not covered by regulations are specified in GB/T15766.3. 1.2 Referenced standards
The provisions contained in the following standards constitute the provisions of this standard through reference in this standard. When this standard was published, the versions shown were valid. All standards are subject to revision, and parties using this standard should explore the possibility of using the latest versions of the following standards. GB4599—1994 Photometric performance of automobile headlights GB5948—1998 Photometric performance of motorcycle incandescent filament light source headlights (neqEC No.57, No.72: 1995) GB/T7451—1987 Terminology of electric light sources
GB/T15766.22000 Performance requirements for filament bulbs for road motor vehicles (idtIEC60810: 1993) GB/T15766.3—2000 Auxiliary bulbs for filament bulbs for road motor vehicles (idtIEC60983: 1995) IEC60050 (845): 1993
3 International Electrotechnical Terminology (IEV) Chapter 845: Lighting IEC60051, Analog electrical measurements for direct acting indications Instruments and accessories IEC60061-1: 1969 Lamp caps, lamp holders and control interchangeability and safety gauges Part 1: Lamp caps Approved by the State Administration of Quality and Technical Supervision on October 17, 2000 Implementation on July 1, 2001
GB15766.1-2000
IEC604101973 Sampling plan and procedure for characteristic inspection ISO7227: 1987 Road motor vehicle lighting and light signaling devices - Terminology Note: According to the definition in 3.14 of ISo7227: 1987, the term "dipped-beam" is used in this standard, while the term "passing+beam" is still used.
According to IS072 27:1987, 3.15, this standard uses the term "main-beam", while the term "driving-beam" is still used.
1.3 Definitions
The terms used in this standard, in addition to those specified in GB/T7451, are supplemented as follows. 1.3.1 Category
Terms used to describe the different basic structures of standardized filament bulbs. Note: Each specific name, such as: P21/5W, H4, can constitute a type of bulb. This term comes from ECE Regulation No. 37. 1.3.2 Type (variety) type
Light bulbs that belong to the same type but differ in the following main aspects Filament bulbs are different types (varieties) of filament bulbs: a) Trade name or trademark.
Note: Filament bulbs with the same trade name or trademark but different manufacturers are considered different types of filament bulbs. Filament bulbs produced by the same manufacturer but with different trade names or trademarks can be considered the same type of filament bulbs. b) Glass shell structure, in terms of its influence on optical effects. c) Nominal voltage.
1.3.3 Type test type test
One or a series of tests conducted on type test samples to verify whether the design of the product meets the requirements of relevant regulations. 1.3.4 Type test sample type test sample is one or several identical samples submitted by the manufacturer or seller for type test. 1.3.5 Conformity of production of mass production The conformity of mass production of a given type of bulb is evaluated according to the requirements of relevant regulations. Note
1 The mass production filament bulbs are of the same design as the approved type test samples. 2 Regulations may be prescribed by government agencies to verify the consistency of mass production. 1.3.6 Nominal voltage nominalvoltage
The voltage marked on a filament lamp, usually the battery voltage of the road motor vehicle power supply network (6V, 12V or 24V). 1.3.7 Nominal wattage nominalwattage
The wattage marked on a filament lamp.
1.3.8 Test voltage testvoltage
The voltage applied when specifying and testing certain properties of a lamp. 1.3.9 Rated value ratedvalue (this definition is under consideration) NOTE, mainly for new lamp data sheets, the following definition is recommended: "The value of a characteristic specified for a filament lamp operating under the test voltage and/or other specified conditions."
1.3.10 Tolerance tolerance
The permissible deviation from the rated value, generally expressed as a percentage of the rated value. 1.3.11 Limit values limitvalues
The minimum and/or maximum value that a filament lamp characteristic must meet when operating under specified conditions. 1.3.12 Test luminous flux testluminousflux The luminous flux specified for a standard filament bulb used to measure the optical performance of a lighting or light signal device, and the luminous flux that must be adjusted when testing a filament bulb in a standard front light according to 2.8. 1.3.13 Reference plane referenceplane
The plane determined by the lamp holder as a reference, and the position of certain parts of a filament bulb is measured on this basis. 1.3.14 Reference axis referenceaxis
The axis determined by the lamp holder as a reference, and the position of certain parts of a filament bulb is measured on this basis. 1.3.15 Ageing period ageingperiod
In order to stabilize the performance of a filament bulb, an unused filament bulb is operated under the test voltage for a period of time. 1.3.16 Standard filament lamp standardfilamentlamp A filament lamp with a colorless transparent glass shell (if other colors are not allowed according to the relevant lamp data sheet), with a small size tolerance, used to measure the optical performance of lighting or light signaling devices. Note: For each type, only one standard filament lamp with a nominal voltage is specified. 1.3.17 Production filament lamp productionfilamentlamp shall comply with the requirements of the filament lamp indicated in the "Product Lamp" column of the relevant lamp data sheet of this standard. 8 Heavy Duty Filament Lamp heavydutyfilamentlamp 1.3.18
A filament lamp declared by the manufacturer or responsible seller to comply with the heavy load test conditions specified in Table B2 of GB/T15766.2-2000 in addition to meeting the requirements of this standard. 1.4 Numbering system for filament lamp data sheets The first group of digits indicates the standard number (15766.1), followed by "GB\. The second group of digits indicates the filament lamp data sheet number. The third group of digits indicates the publication number of the sheet. 2 Requirements and test conditions
2.1 General requirements
Filament lamps should be designed to maintain good working condition during normal use. In addition, there should be no design and manufacturing defects in appearance.
2.2 Lamp marking
2.2.1 The lamp shall be marked with the following clear and durable markings: - the manufacturer's or responsible seller's brand name or trademark; - the nominal voltage:
- the international designation of the relevant type;
- the nominal wattage (for double filament lamps, the order is: high wattage filament/low wattage filament); if it is part of the international designation of the relevant filament lamp type, it does not need to be marked separately. Other markings may be added in addition to the above. Note: Such as approval marks granted by the relevant authorities, etc. 2.2.2 Compliance is checked by the following methods: a) The presence and legibility of the marking - by visual inspection; b) Durability - the following test is performed on unused filament lamps: rub the marked part of the filament lamp with a damp soft cloth for 15 seconds. After the test, the marking should still be legible. 2.2.3 If the marking is printed on the glass bulb, it should not have an adverse effect on the light output performance. 2.3 Glass bulb
The glass bulb of the filament lamp should not have scratches or spots that interfere with its optical performance. 2.4 Glass bulb color
GB15766.1—2000
2.4.1 Unless otherwise specified in the corresponding filament lamp data sheet, the filament lamp glass bulb shall be colorless and transparent. For some types of lamps, colored glass bulbs are permitted.
2.4.2 In the case of using colored glass bulbs, after aging according to C1, the glass bulb surface should be gently wiped with a cotton cloth soaked in a mixture of 70% heptane (n-heptane) and 30% toluol (toluol) by volume. After about 5 minutes, the glass bulb surface should be visually inspected and there should be no obvious changes.
2.4.3 The color of the glass bulb shall comply with the requirements of Appendix B. 2.5 Filament lamp size
2.5.1 The size of the filament lamp shall comply with the limit values specified in the lamp drawing or the relevant filament lamp data sheet. 2.5.2 The limits on filament shape, length and position and the conditions for their measurement shall comply with the corresponding requirements of Annexes A, D, E and F respectively. 2.6 Lamp Caps
Filament lamps shall be fitted with a suitable lamp cap as specified in the corresponding Filament Lamp Data Sheet and shall comply with the provisions of the corresponding Lamp Cap Data Sheet of IEC 60061-1.
2.7 Requirements for initial photoelectric performance
2.7.1 The power and luminous flux of filament lamps shall comply with the limits specified in the corresponding Filament Lamp Data Sheet. 2.7.2 Unless a specific colour is specified, the luminous flux specified in the corresponding Filament Lamp Data Sheet applies only to filament lamps emitting white light.
2.7.3 Where selective yellow is permitted, the luminous flux of a filament lamp with a selective yellow (outer) glass envelope shall be at least 85% of the luminous flux of a corresponding filament lamp with a colourless transparent glass envelope. 2.7.4 Conformity shall be checked under the test conditions specified in Annex C. 2.8 Inspection of optical quality
This requirement is only applicable to dual-filament bulbs with internal light distribution screens that emit asymmetrical low-beam headlamps. This inspection shall be carried out when the product design is finalized.
2.8.1 Inspection of optical quality shall be carried out at a voltage that reaches the test luminous flux value. 2.8.2 12V bulbs emitting white light
Place the sample that is closest to the requirements of a standard filament bulb in a standard headlamp for testing, and verify that the low-beam light distribution of the entire device consisting of the headlamp and the filament bulb to be tested meets the requirements of GB4599 or GB5948 for low-beam beams. 2.8.3 6V and 24V bulbs emitting white light
Place the sample closest to the rated size in a standard headlamp for testing and verify that the complete set consisting of the headlamp and the filament bulb to be tested complies with the light distribution requirements for the dipped beam specified in GB4599 or GB5948. Deviations not exceeding 10% of the minimum value are acceptable.
2.8.4 For filament bulbs with selective yellow glass or outer glass, the test shall be carried out in a standard headlamp in the same manner as described in 2.8.2 and 2.8.3 and ensure that the illumination reaches at least 85% of the minimum light distribution requirements for the dipped beam specified in GB4599 or GB5948 for 12V filament bulbs or at least 77% for 6V and 24V filament bulbs. The maximum illumination limit remains unchanged. For filament bulbs with selective yellow glass, this test may be omitted if approval has been granted for the same type of filament bulbs emitting white light.
2.9 Standard filament lamps
Standard filament lamps shall meet the additional requirements specified in the relevant filament lamp data sheet. 3 Sampling and qualification conditions
3.1 Sampling and qualification levels for manufacturer's test records (see Table 1) 4
Characteristic grouping
Clarity and durability
Glass bulb quality
Glass bulb color
Outer dimensions of lamp
(excluding lamp cap)
Lamp cap dimensions
Dimensions related to internal parts··
Initial reading;
Power and luminous flux*·
GB15766.12000
Table 1 Characteristics
Test records divided between lamp types
All with the same external dimensions
All types with the same glass
All colored glass of the same design
All types of the same type
All types of the same type
All lamps of one type
All lamps of one type
Minimum samples per group for 12 months
Acceptable nonconformance
Level (%) for each characteristic
*The evaluation should normally include a series of filament lamps from a single factory. The manufacturer may combine records of the same type from several factories, provided that these factories produce under the same quality system and quality management**In the case of filament lamps with more than one internal part (filament, light distribution screen), the grouping of characteristics (size, power, luminous flux) applies separately to each part.
Based on the different number of test results for each characteristic group, the acceptable acceptance limits are listed in Table 2, given as the maximum number of nonconformances. This limit is based on an acceptable nonconformity level of 1% and assumes a probability of acceptance of at least 0.95. Table 2
Number of test results per characteristic
201~260
261~315
316~370
371~435
436~500
501~570
571~645
646~720
Acceptable pass limit
Number of test results per characteristic
7 21800
801~860
861~920
921~990
991~1060
1061~1125
1126~1190
1191~1249
Acceptable limits
Based on the different numbers of test results for each set of characteristics, the acceptable limits are listed in Table 3, given as the maximum number of failures. This limit is based on an acceptable nonconformity level of 6.5%, assuming a probability of acceptance of at least 0.95.5
Number of bulbs in record
~200
201~213
214~227
228~240
241~254
255~268
269~281
282~295
296~308
309~322
323~336
337~349|| tt||350~363
364~376
377~390
391~404
405~417
418~431
432~444
445~458
459~472
473~485
486~499
500~512
513~526
527~540
Qualified limit
GB15766.1—2000
Number of bulbs in the record
541~553
554567
568580
581~594
595~608
609~621
622~ 635
636~648
649~662
663~676
677~689
690~703
704716
717~730
731~744
745~757
758~771
772~784
785798
799~812
813~825
826~839
840~852|| tt||853 ~ 866 | | tt | 48
949~961
962975
976~988
989~1002
1003~1016
1017~1029
1030~1043
1044~1056
10571070
1071~1084
1085~1097
1098~1111
1112~1124
1125~1138
11 39~1152
1153~1165
1166~1179
11801192
1193~1206
1207~1220
1221~1233
12341249
Qualified limits
Based on the different numbers of test results for each characteristic, the acceptable qualified limits are listed in Table 4, given as a percentage of test results, assuming a probability of acceptance of at least 0.95
Number of results for each characteristic test
20 000
40 000
100000
1000000
Qualified limit expressed as a percentage of the test results Acceptable level of non-conformity is 1%
3.2 Minimum requirements for on-site inspection by the management authority 3.2.1 General
Qualified limit expressed as a percentage of the test results Acceptable level of non-conformity is 6.5%
If the requirements for product filament lamps specified in the relevant data sheets in Chapter 4 and the relevant lamp holder data sheets are met, then 6
GB15766.1-2000
Considering the photometric performance, geometric dimensions, appearance quality and electrical performance, the product consistency requirements are considered to be satisfactory. 3.2.2 If the test results meet 3.3, the consistency of mass-produced filament lamps should be undisputed. 3.2.3 If the test results do not conform to 3.3, the conformity is questionable and the manufacturer shall be required to produce products that meet the requirements. 3.2.4 If 3.2.3 applies, an additional sample of 250 filament lamps shall be randomly selected from recent production within two months. 3.3 Acceptance conditions for field inspection
Acceptance shall be determined based on the values in the following table. For each set of characteristics, filament lamps are accepted or rejected based on the values given in the following table.
Number of first samples: 125
If the number of unqualified samples is greater than 2 (11) and less than 5 (16), take another 125 samples and evaluate the 250 pieces
Data sheet of filament bulbs
4.1 List of specific filament bulb varieties
Sheet number
15766.1-GB-2110
15766.1-GB-2120-
15766.1-GB-2125
15766. 1-GB-2130-
15766.1-GB-2135-
15766.1-GB-2140
15766.1-GB-2150-
15766.1-GB-2160-
15766.1-GB-2305-Www.bzxZ.net
P43t-38
P43t-38
BAX15d
BAX15d
*This table is designed to evaluate the qualification of filament lamps. The acceptable unqualified levels are 1% and 6.5% respectively. It is compiled based on the double sampling method of normal inspection in EC60410. **Filament lamps should be tested and the test results recorded in accordance with the grouping of characteristics in Table 1 in 3.1. 7
Loose leaf number
15766.1-GB-2310-
15766.1-GB-2315
15766.1-GB-2 320
15766.1-GB-2325-
15766.1-GB-2330-
15766.1-GB-2335-||tt ||15766.1-GB-2340-
15766.1-GB-2350-
15766.1-GB-2360-
1576 6.1-GB-3110-
15766.1-GB-3120-
15766.1-GB-3130-
15766.1-GB- 3310-
15766.1-GB-3311-
15766.1-GB-3320-
GB15766.1—2000||t t||Table (continued)
P21/5W
P21/4W
W21/5W
BAY15d
BAY15d
BAY15d
BAZ15d
BAZ15d
BAZ15d
w3x16q
BA15s(BA15d)| |tt||BA15s(BA15d)
BA15s(BA15d)
BAU15s
BAU15s
BA15s(BA 15d)
BA15s(BA15d)
BA15s(BA15d)
Loose-leaf number
15766.1-GB-3330
15766.1-GB-3340-
15766.1-GB-3410-
15766.1-GB-3420-
15 766.1-GB-3430-
15766.1-GB-4110-
15766.1-GB-4120-
15766.1-G B-4310-
15766.1-GB-4320-
15766.1-GB-4330
15766.1-GB-5010-| |tt||15766.1-GB-9310-
15766.1-GB-9610-
15766.1-GB-9620-
G B15766.1—2000
Table (End)
H27W/1
H27W/2
BA15s(BA15d)
BA 15s(BA15d)
BA15s(BA15d)
w2.1×9.5d
w2.1×9.5d
W2.1X9.5d
w2.1×9.5d
w2.1X9.5d
W2.1×9.5d
w3x16d
EP10/14x115d
w3x16d
EP10/14x115d
w3x16d
EP10/14x115d
w3x16d
EP10/14x115d
w3x16d
EP10/14x115d
w3x16d
EP10/14x115d
w3x16d
EP10/14x112.3, then an additional 250 samples of filament bulbs shall be randomly selected from the most recently produced products within two months. 3.3 Acceptance criteria for on-site inspection
Acceptance shall be determined based on the values in the table below. For each set of characteristics, filament bulbs are accepted or rejected based on the values given in the table below.
First sample quantity: 125
If the number of failures is greater than 2 (11) and less than 5 (16), another 125 samples shall be taken and the 250 shall be evaluated
Filament bulb data sheet
4.1 List of specific filament bulb varieties
Sheet number
15766.1-GB-2110
15766.1-GB-2120-
15766.1-GB-2125
15766. 1-GB-2130-
15766.1-GB-2135-
15766.1-GB-2140
15766.1-GB-2150-
15766.1-GB-2160-
15766.1-GB-2305-
P43t-38
P43t-38
BAX15d
BAX15d
*This table is designed to evaluate the qualification of filament lamps. The acceptable unqualified levels are 1% and 6.5% respectively. It is compiled based on the double sampling method of normal inspection in EC60410. **Filament lamps should be tested and the test results recorded in accordance with the grouping of characteristics in Table 1 in 3.1. 7
Loose leaf number
15766.1-GB-2310-
15766.1-GB-2315
15766.1-GB-2 320
15766.1-GB-2325-
15766.1-GB-2330-
15766.1-GB-2335-||tt ||15766.1-GB-2340-
15766.1-GB-2350-
15766.1-GB-2360-
1576 6.1-GB-3110-
15766.1-GB-3120-
15766.1-GB-3130-
15766.1-GB- 3310-
15766.1-GB-3311-
15766.1-GB-3320-
GB15766.1—2000||t t||Table (continued)
P21/5W
P21/4W
W21/5W
BAY15d
BAY15d
BAY15d
BAZ15d
BAZ15d
BAZ15d
w3x16q
BA15s(BA15d)| |tt||BA15s(BA15d)
BA15s(BA15d)
BAU15s
BAU15s
BA15s(BA 15d)
BA15s(BA15d)
BA15s(BA15d)
Loose-leaf number
15766.1-GB-3330
15766.1-GB-3340-
15766.1-GB-3410-
15766.1-GB-3420-
15 766.1-GB-3430-
15766.1-GB-4110-
15766.1-GB-4120-
15766.1-G B-4310-
15766.1-GB-4320-
15766.1-GB-4330
15766.1-GB-5010-| |tt||15766.1-GB-9310-
15766.1-GB-9610-
15766.1-GB-9620-
G B15766.1—2000
Table (End)
H27W/1
H27W/2
BA15s(BA15d)
BA 15s(BA15d)
BA15s(BA15d)
w2.1×9.5d
w2.1×9.5d
W2.1X9.5d
w2.1×9.5d
w2.1X9.5d
W2.1×9.5d
w3x16d
EP10/14x112.3, then an additional 250 samples of filament bulbs shall be randomly selected from the most recently produced products within two months. 3.3 Acceptance criteria for on-site inspection
Acceptance shall be determined based on the values in the table below. For each set of characteristics, filament bulbs are accepted or rejected based on the values given in the table below.
First sample quantity: 125
If the number of failures is greater than 2 (11) and less than 5 (16), another 125 samples shall be taken and the 250 shall be evaluated
Filament bulb data sheet
4.1 List of specific filament bulb varieties
Sheet number
15766.1-GB-2110
15766.1-GB-2120-
15766.1-GB-2125
15766. 1-GB-2130-
15766.1-GB-2135-
15766.1-GB-2140
15766.1-GB-2150-
15766.1-GB-2160-
15766.1-GB-2305-
P43t-38
P43t-38
BAX15d
BAX15d
*This table is designed to evaluate the qualification of filament lamps. The acceptable unqualified levels are 1% and 6.5% respectively. It is compiled based on the double sampling method of normal inspection in EC60410. **Filament lamps should be tested and the test results recorded in accordance with the grouping of characteristics in Table 1 in 3.1. 7
Loose leaf number
15766.1-GB-2310-
15766.1-GB-2315
15766.1-GB-2 320
15766.1-GB-2325-
15766.1-GB-2330-
15766.1-GB-2335-||tt ||15766.1-GB-2340-
15766.1-GB-2350-
15766.1-GB-2360-
1576 6.1-GB-3110-
15766.1-GB-3120-
15766.1-GB-3130-
15766.1-GB- 3310-
15766.1-GB-3311-
15766.1-GB-3320-
GB15766.1—2000||t t||Table (continued)
P21/5W
P21/4W
W21/5W
BAY15d
BAY15d
BAY15d
BAZ15d
BAZ15d
BAZ15d
w3x16q
BA15s(BA15d)| |tt||BA15s(BA15d)
BA15s(BA15d)
BAU15s
BAU15s
BA15s(BA 15d)
BA15s(BA15d)
BA15s(BA15d)
Loose-leaf number
15766.1-GB-3330
15766.1-GB-3340-
15766.1-GB-3410-
15766.1-GB-3420-
15 766.1-GB-3430-
15766.1-GB-4110-
15766.1-GB-4120-
15766.1-G B-4310-
15766.1-GB-4320-
15766.1-GB-4330
15766.1-GB-5010-| |tt||15766.1-GB-9310-
15766.1-GB-9610-
15766.1-GB-9620-
G B15766.1—2000
Table (End)
H27W/1
H27W/2
BA15s(BA15d)
BA 15s(BA15d)
BA15s(BA15d)
w2.1×9.5d
w2.1×9.5d
W2.1X9.5d
w2.1×9.5d
w2.1X9.5d
W2.1×9.5d
w3x16d
EP10/14x111-GB-3410-
15766.1-GB-3420-
15766.1-GB-3430-
15766.1-GB-4110-
15766.1-GB-4120-
15766.1-GB-4310 -
15766.1-GB-4320-
15766.1-GB-4330
15766.1-GB-5010-
15766.1-GB-9310-
15766.1-GB-9610-
157 66.1-GB-9620-
GB15766.1—2000
Table (End)
H27W/1
H27W/2
BA15s(BA15d)
BA15s(BA15d)
BA15s(BA15 d)
w2.1×9.5d
w2.1×9.5d
W2.1X9.5d
w2.1×9. 5d
w2.1X9.5d
W2.1×9.5d
w3x16d
EP10/14x111-GB-3410-
15766.1-GB-3420-
15766.1-GB-3430-
15766.1-GB-4110-
15766.1-GB-4120-
15766.1-GB-4310 -
15766.1-GB-4320-
15766.1-GB-4330
15766.1-GB-5010-
15766.1-GB-9310-
15766.1-GB-9610-
157 66.1-GB-9620-
GB15766.1—2000
Table (End)
H27W/1
H27W/2
BA15s(BA15d)
BA15s(BA15d)
BA15s(BA15 d)
w2.1×9.5d
w2.1×9.5d
W2.1X9.5d
w2.1×9. 5d
w2.1X9.5d
W2.1×9.5d
w3x16d
EP10/14x11
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