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GB 19510.10-2009: Lamp controlgear -- Part 10: Particular requirements for ballasts for discharge lamps (excluding fluorescent lamps)
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Lamp controlgear -- Part 10: Particular requirements for ballasts for discharge lamps (excluding fluorescent lamps)
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Basic data | Standard ID | GB 19510.10-2009 (GB19510.10-2009) | | Description (Translated English) | Lamp controlgear -- Part 10: Particular requirements for ballasts for discharge lamps (excluding fluorescent lamps) | | Sector / Industry | National Standard | | Classification of Chinese Standard | K74 | | Classification of International Standard | 29.140.99 | | Word Count Estimation | 19,137 | | Date of Issue | 2009-10-15 | | Date of Implementation | 2010-12-01 | | Older Standard (superseded by this standard) | GB 19510.10-2004 | | Adopted Standard | IEC 61347-2-9-2003, IDT | | Regulation (derived from) | Announcement of Newly Approved National Standards No. 11 of 2009 (No. 151 overall) | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | | Summary | This Chinese standard applies to high-pressure mercury lamp, low pressure sodium lamp, high pressure sodium and metal halide lamps with ballast specific requirements. This standard applies to adopt the following 50Hz or 60Hz 1000 V AC ballast, its support of the discharge lamp rated power, size and characteristics should meet IEC 60188, IEC 60192, IEC 60662 and IEC 61167 requirements. This standard applies to complete ballasts and their component parts, for example: reactors, transformers and capacitors. Thermally protected ballasts special requirements, see Appendix B. | GB 19510.10-2009: Lamp controlgear -- Part 10: Particular requirements for ballasts for discharge lamps (excluding fluorescent lamps)
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Lamp controlgear.Part 10. Particular requirements for ballasts for discharge lamps (excluding fluorescent lamps)
ICS 29.140.99
K74
National Standards of People's Republic of China
GB 19510.10-2009/IEC 61347-2-9.2003
Replacing GB 19510.10-2004
Lamp control
Part 10. discharge lamps (excluding fluorescent lamps)
Particular requirements for ballasts
(IEC 61347-2-9.2003, Lampcontrolgear-
Part 2-9. Particularrequirementsforbalastsfordischargelamps
(Excludingfluorescentlamps), IDT)
Posted 2009-10-15 2010-12-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Table of Contents
Preface Ⅰ
Introduction Ⅲ
1 Scope 1
2 Normative references 1
3 Terms and definitions
4 2 General requirements
4.1 2 capacitors and other components
4.2 thermally protected ballast 2
5 Test Description 2
6 Category 2
7 Flag 2
7.1 Mandatory Signs 2
7.2 Supplementary sign 2
7.3 Other marks 3
8 accidental contact with live parts of the measures to prevent 3
9 Terminal 3
10 grounding device 3
11 Moisture resistance and insulation 3
12 Dielectric strength 3
Heat winding 13 Test 3
Thermal limit of 14 ballast 3
15 high-voltage pulse test 6
16 Fault Status 6
17 Structure 6
18 creepage distances and clearances 6
19 Screws, current-carrying parts and connections 7
20 heat, fire and resistance to tracking 7
21 corrosion 7
22 no-load output voltage 7
Appendix A (normative) test to determine whether a conductive part is a live part may cause an electric shock. 8
Particular requirements for 8 Appendix B (normative) control device for thermally protected lamp
Particular requirements 8 Annex C (normative) with thermal protector electronic control unit lamp
Annex D (normative) heating test control apparatus for thermally protected lamp of claim 8
Annex F (normative) anti-convection air chamber 8
Derivation of Annex G (normative) values of pulse voltages 8
Annex H (normative) Test 8
Selection Annex I (normative) varistors 9
Appendix J (informative) Description of ballast temperature 10
Supplementary requirements Annex K (normative) double or reinforced insulation of built-in magnetic ballasts 13
GB 19510.10-2009/IEC 61347-2-9.2003
Foreword
All technical content in this section is mandatory.
GB 19510 "Lamp control" is divided into 14 parts.
--- Part 1. General requirements and safety requirements;
--- Part 2. starting devices (other than glow starters) - Particular requirements;
--- Part 3. Tungsten with AC/DC buck converter electronic Particular requirements;
--- Part 4. Particular requirements for the exchange of electronic fluorescent ballasts;
--- Part 5. Particular requirements for dc supplied electronic ballasts for general lighting of;
--- Part 6. Particular requirements for dc public transport lighting ballasts;
--- Part 7. DC electronic ballasts for aircraft lighting Particular requirements;
--- Part 8. DC electronic ballasts for emergency lighting Particular requirements;
--- Part 9. Particular requirements for ballasts for fluorescent lamps;
--- Part 10. discharge lamps (excluding fluorescent lamps) with the special requirements of the ballast;
--- Part 11. high frequency cold start tubular discharge lamps (neon) Specific requirements for electronic exchange and the frequency converter;
--- Part 12. Particular requirements for lamps miscellaneous electronic circuits;
--- Part 13. discharge lamps (excluding fluorescent lamps) or AC supplied electronic ballasts for special requirements;
Part --- Article 14. LED module with special requirements for dc or ac electronic control device.
This is Part 10 GB 19510's.
This section should be used in conjunction with the GB 19510.1. It was only after the corresponding provisions of GB 19510.1 supplement or modify the development
It made.
This section identical with IEC 61347-2-9.2003 (Version 1.1) "Lamp control - Part 2-9. discharge lamps (fluorescent lamps except
Outside) the special requirements "for ballasts and revised in 2006, 2 (in English).
For ease of use, this section made the following editorial changes.
a) "IEC 61347-2-9" to "this Part";
b) Remove the preface IEC 61347-2-9, IEC 61347-2-9 revised introduction;
c) The international standard "(note .)" form brackets removed;
d) as a decimal by decimal points instead of "and", ".";
e) For other international standards referenced it has been adopted as the equivalent of a standard, this part of the country with reference to these national standards
Or industry standards instead of the corresponding international standards, and the rest not tantamount to the adoption of a standard for the international standards in this section are
Direct reference (see Part 2 of this chapter).
This Part replaces GB 19510.10-2004 "General requirements for discharge lamps (excluding tubular fluorescent lamps) ballasts and safety requirements."
Compared with some of the major differences between GB 19510.10-2004 this as follows.
a) increase the reference in this section 7.1 GB 19510.1 of 7.1r) items requested;
b) The GB 19510.10-2004 first column in Table of Contents 1 "and the ballast housing adjacent capacitor." to Table 1 of this section
The first column of the content "ballast housing adjacent capacitor, if any (one capacitor and ballast)";
c) an increase in Chapter 22, "no-load output voltage";
d) increase in Appendix K "on the built-in double insulation or reinforced insulation additional requirements of ballast";
e) The 15 "design requirements to work in line with light outer boot device ballast" is changed to "Design requirements for external start
Means the lamp ballast work ";
GB 19510.10-2009/IEC 61347-2-9.2003
f) The 15.2 "flag" to "identity."
This section of the Appendix A, Appendix B, Appendix C, Appendix D, Appendix E, Appendix F, Appendix G, Appendix H, Appendices I and K is the norm
Appendix Appendix J are informative appendices.
This part is proposed by the China National Light Industry Council.
This part of the National Electric lighting Standardization Technical Committee (SAC/TC224) centralized.
This section is drafted. Fujian JK Yaming Electric Co., Ltd., the National Electric Light Source Quality Supervision and Inspection Center (Shanghai), Foshan Huaquan
Electric Lighting Co., Ltd., Wujiang Huafeng (Huaneng) Electronics Co., Ltd., Jiangsu YASHIPS lighting.
The main drafters of this section. Zhang Quan, Zhangyi Peng, Yuan Qi, Yang Chi District, Ding Buxiong, water Yu Rong, Yan Jinxing, Cooper rights.
This section was first released in 1993, the first revision in 2004, this is the second amendment.
GB 19510.10-2009/IEC 61347-2-9.2003
Introduction
This section and the various parts constituting the GB 19510.2 ~ GB 19510.14 GB 19510.1 at the time of any reference to the terms of the
Order to implement the terms and scope of the test, but also provides the necessary additional requirements. GB 19510.2 ~ GB 19510.14 each
Part is separate, and do not refer to each other.
If this section by "a section in accordance with GB 19510.1-2009 requires," this sentence to refer to the GB 19510.1-2009
A provision requirements, the meaning of this statement is in accordance with all the requirements of this provision, but obviously does not apply to GB 19510.2 ~
Except for the contents of the control device GB 19510.14 specific type of lamp.
GB 19510.10-2009/IEC 61347-2-9.2003
Lamp control
Part 10. discharge lamps (excluding fluorescent lamps)
Particular requirements for ballasts
1 Scope
This part of GB 19510 specifies the requirements for special high-pressure mercury lamp, low pressure sodium, high pressure sodium and metal halide lamp ballasts.
This section applies to the use of AC 50Hz or 60Hz1000V less ballast, instead of supporting the rated power of the discharge lamp,
Dimensions and characteristics shall comply with IEC 60188, IEC 60192, IEC 60662 and IEC 61167 of.
This section applies to complete ballasts and their component parts, such as. reactors, transformers and capacitors. Thermally protected ballast special
Specific requirements in Appendix B.
Note 1. Certain types of discharge lamps require a trigger.
Note 2. The fluorescent lamp ballasts see GB 19510.9.
Performance requirements are given in GB/T 15042 in.
2 Normative references
The following documents contain provisions which, through reference in this Part of GB 19510, constitute provisions of this part. For dated reference documents
Member, all subsequent amendments (not including errata content) or revisions do not apply to this section, however, encouraged to reach under this section
Parties to research agreement to use the latest versions of these documents. For undated reference documents, the latest versions apply to this
section.
This part of the normative GB 19510.1-2009 Chapter 2 of the reference document as well as the following normative references.
GB/T 15042 lamp for discharge lamps (excluding tubular fluorescent lamps) - Performance requirements for ballasts (GB 15042-2009, IEC
60923.2006, IDT)
Part 1 GB 19510.1-2009 lamp control apparatus. General and safety requirements (IEC 61347-1.2007, IDT)
Part 2 GB 19510.2 lamp control device. starting devices (other than glow starters) - Particular requirements (GB 19510.2-
2009, IEC 61347-2-1.2006, IDT)
IEC 60188 high pressure mercury lamp
IEC 60192 Low pressure sodium
IEC 60662 HPS
IEC 61167 metal halide lamps
3 Terms and Definitions
GB determined following terms and definitions 19510.1-2009 Chapter 3 apply to this section.
3.1
By the manufacturer under the conditions specified in this section to determine the temperature rise.
NOTE. Ballast power requirements and installation conditions specified in Annex H.
3.2
Intentionally applied aperiodic transient voltage, this voltage is applied, it should quickly rose to a peak, and then it is usually slow down
GB 19510.10-2009/IEC 61347-2-9.2003
To zero. Such pulses are generally two indices and to represent.
Note. The term "pulse" and "surge" are different, which is a transient phenomenon grid electrical equipment in the course of arising.
4 General requirements
In accordance with Chapter 4 GB 19510.1-2009 and the following requirements.
4.1 capacitors and other components
Mounted in the ballast capacitors and other components shall be in accordance with the relevant standards.
4.2 thermally protected ballast
Thermally protected ballasts are specified in Annex B.
5 Test Description
GB 19510.1-2009 accordance with Chapter 5 as well as the following requirements.
5.1 Type tests shall be carried out on a sample group of eight ballasts submitted for type testing thereof. Wherein the heat for seven ballasts
Test, a ballast for all other tests. Heat resistance test on eligibility, see Chapter 13 requirements.
For metal halide and high pressure sodium lamp ballasts, but also in accordance with the requirements of Chapter 15. Another six ballast high pressure pulse test
It should not be substandard goods inspection, during the test.
5.2 The test shall be carried out under conditions of GB 19510.1-2009 Appendix H prescribed. Typically, each type of ballast to be full
Portion of the test. If the number of involved are similar to the ballast, the batch may be tested in each of the rated power of the ballast, or
Consultation with the manufacturer, select a representative of the ballast from the batch tested. In the same structure but different properties of a number of ballast
When submitting acceptance together, if the manufacturer or other test reports are accepted provided the authority inspection departments, in accordance with the requirements of Chapter 13
As well as the number of samples shown in Appendix E "Unlike 4500 S constant usage of" heat resistance test conducted permits has decreased, even
To omit these tests.
Category 6
In accordance with Chapter 6 GB 19510.1-2009 requirements.
7 logo
As part of the ballast lamps do not have to make signs. For ballasts installed in the lamppost base should be 7.1 and 7.2
All signs and markings listed on the ballast. Signs should comply with GB 19510.1-2009 in 7.2.
7.1 Mandatory Signs
Ballast (not including integral ballasts) shall be clearly and durably marked with the following mandatory markings.
--- GB 19510.1-2009 in 7.1 a), b), e), f), g) and r content) item;
--- Need for ballast and trigger (GB 19510.2) used together, it should be marked on the ballast to withstand the pulse voltage wiring
Terminal (terminal device).
Note. This flag may take the form of the wiring diagram. But for some high pressure mercury lamp and metal halide lamp using a simple multi-purpose reactance coil ballast
In this way you do not have to make signs.
7.2 Supplementary flag
In addition to these mandatory flag should also apply to the following content marked on the ballast, or marked on the manufacturer's catalog or similar
Specification.
--- In 7.1 of GB c 19510.1-2009), h), i), j), k), o), p) and q content) of the item;
--- For high pressure sodium or metal halide lamp ballasts.
1) If the maximum peak pulse voltage ballasts can withstand over 1500V, the value should be marked;
2) can be used to match the ballast trigger catalog number;
GB 19510.10-2009/IEC 61347-2-9.2003
--- For ballast by more than one independent element constituted shall be marked with the other main element in its current controlling inductive element
To parameters;
--- For with a separate series capacitor (instead of radio interference suppression capacitor) ballast, repeat marked rated
Voltage, capacitance and tolerance;
--- For multiple ballast integrally mounted on poles, junction box, marked to prevent overheating of ballasts and associated components to install
Suggest.
7.3 Other marks
Manufacturers may provide the applicable non-mandatory signs.
8 measures to prevent accidental contact with live parts
GB 19510.1-2009 accordance with the requirements of Chapter 10.
9 Terminals
GB 19510.1-2009 accordance with Chapter 8 requirements.
10 grounding device
In accordance with the requirements of GB 19510.1-2009 Chapter 9.
11 Moisture resistance and insulation
GB 19510.1-2009 accordance with the requirements of Chapter 11.
12 Dielectric strength
In accordance with the requirements of GB 19510.1-2009 Chapter 12.
In addition, using a trigger and the pulse voltage is generated in its internal ballast, should also bear the trigger voltage insulator be
Dielectric strength test. The following table shows the test voltage (U = operating voltage).
≤4U × 1.414 pulse voltage pulse voltage > 4U × 1.414
Double reinforced insulation 4U + 2750V Upmax/1.414 + 2750V
Basic insulation and supplementary insulation 2U + 1000V Upmax/(2 × 1.414) + 1000V
Heat test 13 windings
GB 19510.1-2009 accordance with the requirements of Chapter 13.
Thermal limit of 14 ballasts
Its ballast mounting surface should not cause harm their safety temperature. Eligibility Test by 14.1 and 14.2 and GB 19510.1-
H. 2009's The tests of 12.
14.1 14.2 When the ballast according to the requirements of the test, the temperature in the normal state and abnormal state test which should not exceed Table 1
It shows the corresponding values.
Prior to testing, should be subjected to the following tests and measurements.
a) lamp ballasts should enable the normal start and work;
b) when necessary, measure the resistance of each winding at ambient temperature.
Heating test after the end of the ballast cooled to room temperature, then the ballast shall meet the following requirements.
GB 19510.10-2009/IEC 61347-2-9.2003
a) ballast flag is still clearly visible;
b) ballast shall withstand Chapter 12 dielectric strength test should not be damaged, the test voltage should be reduced to GB 19510.1-
2009 75% of the value shown in the tables 1, but not less than 500V.
Test 14.2 ballast placed under normal conditions. If required, in accordance with the following description of the ballast was placed under abnormal conditions again
Source voltage under the value of the flag to verify.
For the test under normal conditions, the ballast should work with appropriate lights, where lights should not make the generated heat to the town
CURRENT heating impact. If under specified test conditions, the current through the lamp and the lamp current through the reference tolerance same
Within range, these lamps can be regarded as an appropriate lamp.
For the test under abnormal conditions, the ballast is connected directly to the power supply, while the short circuit across the lamp to simulate in the abnormal state can
Ballast shorted line.
Note 1. For the inductance coil ballast (simple choke in series with the lamp inductance), allows the manufacturer to decide not to install lights during the test and measurement, but
That should be adjusted to the current value at 106% of rated voltage illuminated test. For non-inductive coil ballasts should ensure representative
The degree of wear and tear.
Note 2. If you need to measure the temperature rise of the ballast winding (non-essential items), should make appropriate ballast and lamp working together at rated supply voltage and rated frequency
And then measure the temperature to stabilize. In this case, the inductance coil ballast (simple choke in series with the lamp inductance), test
Inspection and measurements can be without lights were installed, but should be adjusted to the current value when the rated supply voltage illuminated test.
Table 1 Maximum temperature
part
The maximum temperature
At 100% of rated voltage
Normal working
At 106% of rated voltage
Normal working
At 110% of rated voltage
Abnormal operation
Indicating an abnormal state ballast winding temperature values
Ballast housing adjacent capacitor, if (capacitor and ballast
Integrally).
--- Without temperature flag
Various materials components.
--- Wood filler phenolic molded parts
--- Mineral filler phenolic molded parts
--- Urea molded plastic parts
--- Melamine molded parts
--- Laminating resin bonded paper parts
--- Rubber parts
--- Thermoplastic material component
Note 1. If the material used in the manufacturing method and those listed in the table are not the same, then they should not be higher than the operating temperature of this material has proven allowed
temperature.
Note 2. When the ballast is operating at its nominal maximum ambient temperature, the temperature should not exceed the values shown in the table. The value in the table is based on ambient temperature of 25 ℃
Obtained.
Under normal conditions, a measure of 100% of the rated voltage winding temperature rise is intended to verify the indicated parameters, in order to provide reference for the lighting design and, therefore,
Not necessarily be. Only in the ballast signs or catalog when otherwise required for such measurements with.
b only possible abnormal state lines for such measurements. Extreme temperatures abnormal winding state should not exceed the number of days and durability test theory
More than two thirds of the number of days corresponding to the temperature value (see Table 2 and Table 3).
c In addition to the wire insulation to prevent contact with live parts or live parts as a thermoplastic material support should also determine its temperature. test the result
Temperature value is used to establish the test conditions specified in 18.1 GB 19510.1-2009.
GB 19510.10-2009/IEC 61347-2-9.2003
Table 2 30 days to accept the durability test ballast abnormal operating conditions
And winding temperature of 110% of the rated voltage limits
Constant S
Limit temperature
S4.5 S5 S6 S8 S11 S16
Table 3 accepted 60 days endurance test with "D6" logo ballast under abnormal operating conditions
And winding temperature of 110% of the rated voltage limits
Constant S
Limit temperature
S4.5 S5 S6 S8 S11 S16
GB 19510.10-2009/IEC 61347-2-9.2003
15 high-voltage pulse test
The metal halide and high pressure sodium lamp ballasts are connected to a high voltage pulse is applied to the line will be in the ballast, ballast and therefore should be able to withstand
The tests specified in 15.1 or 15.2 live, divided into two situations.
Design requirements with external ballast lamp starting means work should be subject to the tests specified in 15.1;
This design requires a starting means within the lamp ballast work should be subject to the test specified in 15.2. The manufacturer shall explain the product has been subject
What kind of experiment.
15.1 to 5.1 in each of six ballasts connected to a load capacitance of 20pF to make it work together with the trigger and measure the pulse voltage.
Then, the trigger is removed, and the following test methods to withstand the dielectric strength of the pulse voltage component.
With another similar flip-flops and ballast together at 1.1 times the rated voltage is not connected to the load capacitance is not connected light bulb for 30 days.
If less than 30 days will trigger damage, should be replaced damaged trigger until the expiration of 30 days after the test.
For use only with its flag indicates that the delayed pulse triggers off device (see 7.2 in the second term 2) description of the item) ballast,
Shall be subject to the same test, but the test period of 250 on-off cycles, off time at least 2min.
After the end of this test, then the provisions of Chapter 12 of the dielectric strength test, the test shall be in addition to the ground wire each terminal phase
Interconnected together, should not produce arcing or breakdown. Then, connect the original triggers and 20pF load capacitance measuring pulse
Pressure error value with the initial measurement values measured should not exceed 10%.
15.2 to 5.1 in six samples of the three samples in Chapter 11 moisture and insulation performance test and Chapter 12 of the dielectric strength test.
After the test, all six samples immediately following high voltage impulse test.
The ballast under test as well as a variable resistor and a closing time (not including bounce time) applicable to 3ms ~ 15ms relay (Example
Such as H16 or VR312/412-type vacuum switch) together with access to DC power by adjusting the operating current and the relay to produce electricity in the ballast
Voltage pulse. Then slowly adjust the current, the voltage increases to a peak voltage of the ballast identified, and in accordance with Appendix J and J. 1 to
Seeking determination of the voltage pulse at the terminal of the ballast.
Note 1. If you are using a very short turn-on time of electronic relays, should be taken to prevent a particularly high induced voltage pulse.
The DC current value reaches the starting voltage is recorded, and then the sample in the current work 1h, during this period, the power per minute
Flow off 10 times, each time off and 3s.
After the test is completed, the ballast immediately all six samples were subjected to Chapter 11, moisture and insulation test and dielectric strength Chapter 12
Test.
Note 2. In addition to the simple ballast inductance coil ballast problem for this test is still under study.
16 Fault Status
GB 19510.1-2009 not in accordance with the requirements of Chapter 14.
17 Structure
In accordance with the requirements of GB 19510.1-2009 Chapter 15.
18 creepage distances and clearances
GB 19510.1-2009 accordance with Chapter 16 and the following requirements.
In the open core type ballasts, as wire insulation and can withstand IEC 60317-0-1 Chapter 13 in the primary or secondary
Enamels or similar materials voltage test in accordance with the value shown in Tables 3 and 4 GB 19510.1-2009 table calculation different windings of the wire
Sometimes the distance wire and shell, between the core may be considered as equivalent to 1mm distance. But only in addition to the enamel coating, creepage distance
With this algorithm, and clearances from the case is still less than 2mm.
GB 19510.10-2009/IEC 61347-2-9.2003
19 Screws, current-carrying parts and connections
In accordance with the requirements of GB 19510.1-2009 Chapter 17.
20 heat, fire and tracking resistance
GB 19510.1-2009 accordance with the requirements of Chapter 18.
21 corrosion
In accordance with the requirements of GB 19510.1-2009 chapter 19.
22 no-load output voltage
GB 19510.1-2009 accordance with the requirements of Chapter 20.
GB 19510.10-2009/IEC 61347-2-9.2003
Appendix A
(Normative)
Test is to determine whether a conductive part may cause an electric shock of live parts
Appendix A in accordance with the requirements of GB 19510.1-2009.
Appendix B
(Normative)
Particular requirements for thermally protected lamp control device
In accordance with Appendix B GB 19510.1-2009 requirements and the follo...
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