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GB 19510.8-2009: Lamp controlgear -- Part 8: Particular requirements for d.c. supplied electronic ballasts for emergency lighting
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Lamp controlgear -- Part 8: Particular requirements for d.c. supplied electronic ballasts for emergency lighting
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Basic data | Standard ID | GB 19510.8-2009 (GB19510.8-2009) | | Description (Translated English) | Lamp controlgear -- Part 8: Particular requirements for d.c. supplied electronic ballasts for emergency lighting | | Sector / Industry | National Standard | | Classification of Chinese Standard | K74 | | Classification of International Standard | 29.140.99 | | Word Count Estimation | 18,121 | | Date of Issue | 2009-10-15 | | Date of Implementation | 2010-12-01 | | Older Standard (superseded by this standard) | GB 19510.8-2005 | | Adopted Standard | IEC 61347-2-7-2006, IDT | | Regulation (derived from) | Announcement of Newly Approved National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 provides continuous and non- continuous emergency lighting dc supplied electronic ballasts for emergency lighting special security requirements. This standard includes a pair of IEC 60598-2-22 said emergency lighting ballasts and control devices with the specific requirements. This standard also includes other performance requirements for dc supplied electronic ballasts for all working conditions. This is because they do not work in emergency lighting equipment will be on safety hazard. | GB 19510.8-2009: Lamp controlgear -- Part 8: Particular requirements for d.c. supplied electronic ballasts for emergency lighting
---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Lamp controlgear.Part 8. Particular requirements for dcsupplied electronic ballasts for emergency lighting
ICS 29.140.99
K74
National Standards of People's Republic of China
GB 19510.8-2009/IEC 61347-2-7.2006
Replacing GB 19510.8-2005
Control means Part 8 of the lamp.
DC electronic ballasts for emergency lighting Particular requirements
(IEC 61347-2-7.2006, 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
Introduction Ⅲ
Introduction Ⅴ
1 Scope 1
2 Normative references 1
3 Terms and definitions
4 3 General requirements
5 3 Test Description
6 Category 4
7 signs 4
8 measures to prevent accidental contact with live parts 4
Terminal 4 9
10 protection grounding device 4
11 Moisture resistance and insulation 4
12 Dielectric strength 5
Heat test 13 winding 5
Pulse voltage electrical system 14 co-ballast 5
15 start-up requirements 5
16 current and lamp ballast lumen factor (BLF) 5
17 Supply Current 5
18 either lead the maximum current (with preheating cathode) 6
Lamp operating current waveform 19 6
20 Functional safety (EBLF) 6
6 21 conversion
22 charging device 7
23 excess discharge protection 7
24 indicator 8
25 Remote 8
26 temperature cycling test and endurance test 8
27 8 polarity inversion
28 fault conditions 8
29 Structure 8
30 creepage distances and clearances 8
31 Screws, current-carrying parts and connections 9
32 heat, fire and resistance to tracking 9
Corrosion-resistant 9 33
Test Appendix A (normative) to determine whether the conductive member is likely to cause an electric shock live part 10
Particular requirements for Annex B (normative) control device for thermally protected lamp 10
Particular requirements for electronic lamp control device Appendix C (normative) with a thermal protector 10
GB 19510.8-2009/IEC 61347-2-7.2006
Annex D (normative) heating test control apparatus for thermally protected lamp of claim 10
Annex F (normative) anti-convection air chamber 10
Derivation of Annex G (normative) pulse voltage value 10
Annex H (normative) Test 11
Annex I (normative) emergency lighting batteries 11
Appendix J (informative) rest mode and disable mode 11
GB 19510.8-2009/IEC 61347-2-7.2006
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 section GB 19510 "Lamp control" Part 8. DC electronic ballasts for emergency lighting special requirements.
This section should be used with GB 19510.1, which is after the corresponding provisions of GB 19510.1 supplement or modify the development and
Into.
This section identical with IEC 61347-2-7.2006 "Part 2-7 Lamp control. emergency lighting with electronic ballasts for DC
Special requirements "(in English).
This section is equivalent translation IEC 61347-2-7.2006.
For ease of use, this section made the following editorial changes.
a) "IEC 61347-2-7" to "this Part";
b) Remove the preface IEC 61347-2-7, IEC 61347-2-7 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 cited GB 19510.1-2009 have been adopted as the equivalent of the standard, this section by reference
Of these national standards or industry standards instead of the international standard corresponding to the remaining non-identical with the international standard for China
Standards in this section are referenced directly (see Part 2 of this chapter).
This Part replaces GB 19510.8-2005 "Section 8 Lamp control. DC electronic ballasts for emergency lighting special
Claim".
The main difference between this part and GB 19510.8-2005 follows.
--- Chapter 1 increase in the range of GB 19510.4 Appendix J Scope Notes;
--- Chapter 2 normative references added IEC 60081, IEC 60901 and other standards of citation;
--- Added to the definition in Chapter 3 rated emergency response time, the new term to define the maximum DC operating voltage;
--- Chapter 5 test shows the different test samples for the number of additional requirements described;
--- Chapter 7 flag changes and additions to the mandatory signs marking requirements;
GB 19510.8-2009/IEC 61347-2-7.2006
--- Chapter 15 startup requires increased testing method starts eligibility;
--- Chapter 16 of the lamp current and ballast lumen factor in increasing the ballast lumen factor requirements, delete requirements for luminous flux;
--- Chapter 18 lead to any changes to a maximum current (with preheating cathode) in eligibility test methods;
Waveform --- Chapter 19 remove the lamp operating current intermittent ballast requirements;
--- Chapter 20 Functional safety (EBLF) for newly added chapter;
--- Chapter 21 conversion, charging device, excessive discharge protection indicator, remote control, temperature cycling test and endurance test,
Polar transformation and structural change eligibility requirements and test methods;
--- Increase in Appendices I and J.
This section of the Appendix A, Appendix B, Appendix C, Appendix D, Appendix E, Appendix F, Appendix G, Appendix H, Appendix I are normative appendices,
Appendix J is informative appendix.
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 drafted by. National Electric Light Source Quality Supervision and Inspection Center (Shanghai), Shunde District of Foshan City of the State Electric Company Limited, Guangdong take
Manchester (International) Lighting Co., Ltd., Beijing Institute of electric light.
Drafters of this section. Chen Ying, Yuan Qi, Huang Shi and Cai dry strength, Zhonggui Health, Zhao Xiurong, Jiang Shan, Duan Yan Fang.
This section was first released in 2005, this revision is the first time.
GB 19510.8-2009/IEC 61347-2-7.2006
Introduction
This section applies to fluorescent lamp ballasts, but also as applied to incandescent lamps, high-pressure gas discharge lamps and LED lights.
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 "in accordance with GB 19510.1 section requires a" this sentence to refer to a provision of GB 19510.1 requirements,
The meaning of this statement is in accordance with all the requirements of this provision, but obviously does not apply to the special GB 19510.2 ~ GB 19510.14
Except for content control device of a given type of lamp.
GB 19510.8-2009/IEC 61347-2-7.2006
Control means Part 8 of the lamp.
DC electronic ballasts for emergency lighting Particular requirements
1 Scope
This section provides specific safety requirements for continuous and non-continuous emergency lighting emergency lighting DC electronic ballasts.
This section contains specific requirements for IEC ballast and emergency lighting control device with the IEC 60598-2-22.
DC electronic ballasts for emergency lighting can be fitted without batteries.
This section also includes other performance requirements for dc supplied electronic ballasts for all working conditions. This is because the emergency lighting set does not work
Preparation will cause harm to safety.
NOTE. GB 19510.4 Appendix J for AC ballast (normal operation), also applies to the AC/DC power supply emergency lighting work.
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 GB 19510.1 Chapter 2 of the normative references, and the following references.
GB/T 15144 tube fluorescent electronic ballasts performance requirements (GB/T 15144-2009, IEC 60929.2006,
IDT)
Part 1 GB 19510.1 lamp control apparatus. General and safety requirements (GB 19510.1-2009, IEC 61347-1.
2006, IDT)
Section 4 GB 19510.4 Lamp control unit. electronic ballasts for fluorescent lamps - Particular requirements (GB 19510.4-
2009, IEC 61347-2-3.2000, IDT)
IEC 60081 double-ended fluorescent lamps - Performance requirements
IEC 60598-2-22.1997 Luminaires - Part 2. Particular requirements for emergency lighting
IEC 60901 Single-capped fluorescent lamps - Performance requirements
IEC 60921 tube-type fluorescent lamp ballast performance requirements
IEC 61558-1.1997 Part 1 Safety of power transformers, power supply, choke coils and similar products. General requirements and tests
IEC 61558-2-1.1997 power transformers, power supply security and similar products - Part 2-1. general use separate transformer special
Claim
IEC 61558-2-6.1997 power transformers, power supply security and similar products - Part 2-6. General Safety isolating transformers
special requirements
IEC 61558-2-17.1997 power transformers, power supply security and similar products - Part 2-17. switch mode power supply transformer
Particular requirements
3 Terms and Definitions
This part of GB 19510.1 Chapter 3 of the terms and definitions and IEC 60598-2-22.1997 and the following term of 22.8
And definitions.
GB 19510.8-2009/IEC 61347-2-7.2006
3.1
When the power fails the normal lighting available in the lighting.
3.2
Both in normal lighting the lamp with a power switch under the ordinary, but also make the emergency lighting lamps in normal lighting power supply is interrupted
The ballast under work.
3.3
But in normal lighting power is interrupted to make use of the lamp ballast emergency power supply work.
3.4
When normal lighting power is interrupted when the lamp is automatically connected to the emergency lighting power supply, when the normal lighting power is restored after the lights automatically connect to the
Normal lighting power supply.
3.5
Keep the battery charged state, within the stipulated time and battery recharging devices.
3.6
When the battery voltage drops below a certain level allows the robot ballast and the battery disconnected.
3.7
The manufacturer claims the rated emergency ballast lumen factor attainable time.
3.8
Ballast manufacturer claims a maximum supply voltage. For battery-operated ballast, which is available in the entire process of charging the maximum
battery voltage.
3.9
Ballast manufacturer claims the nominal supply voltage. For battery-operated ballasts, battery manufacturers claim it is the nominal battery
Voltage.
3.10
The manufacturer claims the ballast minimum supply voltage. For battery-operated ballasts, which is available at the end of the minimum emergency
battery voltage.
3.11
Rated DC voltage range of the minimum and maximum rated operating voltage DC working voltage.
3.12
Ballast manufacturer claims the battery charger or maintained for a maximum supply voltage ballasts.
3.13
Ballast manufacturer claims the battery charger or maintained for ballasts nominal supply voltage.
GB 19510.8-2009/IEC 61347-2-7.2006
3.14
Ballast manufacturer claims the battery charger or maintained for ballasts minimum supply voltage.
3.15
Minimum rated AC voltage range and the maximum rated operating voltage AC working voltage.
3.16
In normal lighting power is concentrated (eg at night), to prevent the working line of light caused by discharge of the battery device.
3.17
Equipment used to indicate.
a) battery charging;
b) by the emergency lighting tungsten line intact.
3.18
BLF
In the same rated voltage of the ballast lamp luminous flux and selection of the appropriate reference ballast at rated voltage and frequency of work
The ratio of the light flux.
3.19
EBLF
Emergency work using the same lamp ballast emergency luminous flux and choose the appropriate reference ballast at rated voltage and frequency of work
The ratio of the light flux. Emergency ballast lumen factor is rated between working time and after the end of normal power failure measured most
A small value.
3.20
A strip conductor fixed to the outer surface of the lamp or the lamp mounted in a spaced apart a suitable distance from the conductor sheet.
3.21
Power conversion system by the device and battery charging apparatus constructed, if necessary, a test component.
4 General requirements
In accordance with the requirements of GB 19510.1 Chapter 4.
For a range of lamp ballasts are applicable, Chapter 15, Chapter 16, Chapter 17, Chapter 18, Chapter 19, Chapter 20
Test Chapter 22 to deal with each type of lamp repeat the test. For other test select the highest rated power for lights.
5 Test Description
In accordance with the requirements of GB 19510.1 Chapter 5 as well as the following additional requirements.
---Number of samples
The following number of samples shall be submitted to the test.
a) For Chapter 6 - Chapter 12, Chapter 14 and Chapter 27 ~ Chapter 29 ~ Chapter 31 of the test, submit a
sample;
GB 19510.8-2009/IEC 61347-2-7.2006
b) to Chapter 28 of the test, an abnormal state, submit a sample (if necessary, in consultation with the manufacturer, requesting additional samples
Or components).
Category 6
In accordance with the requirements of GB 19510.1 Chapter 6.
7 logo
7.1 Mandatory Signs
The ballast shall 7.2 GB 19510.1 requirements clearly and durably marked with the following mandatory markings.
--- GB 19510.1 in 7.1 a), b), c), d), e), f), k) and l) content; and open circuit voltage (only for warning, do not do
test);
--- Should indicate the type of fuse and current rating (if applicable).
7.2 Supplementary flag
In addition to the mandatory flag shall also apply to the following content marked on the ballast, or marked on the manufacturer's catalog or similar
File.
--- GB 19510.1 in 7.1 h), i), j) and n) the content and
--- Description of the ballast is applicable to not only battery-powered continuous or intermittent supply charging circuit;
--- Minimum and maximum DC, AC (if applicable) operating voltage;
--- About ballasts, lamps and fixtures clear description of the relationship, including reference to the preferred battery type and rated working time;
--- Rated emergency work time;
--- Information on whether the ballast can be used in high-risk task area lighting special lamps in;
--- Description of the ballast can be prevented if the power supply voltage polarity transformation;
--- About ballast used only for emergency lighting instructions;
--- Emergency ballast lumen factor;
--- Within the claimed range of the rated voltage of the lamp ballast can be turned on and operating ambient temperature range limit;
--- The manufacturer shall declare the type of insulation between the power line and the battery used (for example. not insulation, basic insulation, double insulation or plus
Strong insulation);
--- Providing a charging device after test 22.3 normal to charge the battery (for example. the use of an alternative self-resetting fuse) or not normally give
Battery charging (for example. using a single work protection equipment) information;
--- Current of each lamp ballasts working properly.
8 measures to prevent accidental contact with live parts
In accordance with the requirements of GB 19510.1 Chapter 10.
9 Terminals
In accordance with the requirements of GB 19510.1 Chapter 8.
10 protection grounding device
In accordance with the requirements of GB 19510.1 Chapter 9.
11 Moisture resistance and insulation
In accordance with the requirements of GB 19510.1 Chapter 11.
GB 19510.8-2009/IEC 61347-2-7.2006
12 Dielectric strength
In accordance with the requirements of GB 19510.1 Chapter 12.
Heat test 13 windings
Not in accordance with the requirements of GB 19510.1 Chapter 13.
14 co-voltage pulse electric ballast system
The ballast should be able to withstand any pulse due to switching the same line caused by other devices without failure.
Compliance is checked by the tests of the following. a lamp with a suitable amount of ballast placed the maximum voltage at the rated voltage range together
25 ℃ ambient temperature of the work, and then subjected to the ballast shown in Table 1 so that a predetermined number of times without failure of the pulse voltage, pulse voltage the same
Polarity superimposed on the supply voltage.
Table 1 pulse voltage
The number of voltage pulses
Pulse voltage
Peak
Pulse width at half peak time
ms
Time interval between each pulse
3 equal to the design voltage 102
NOTE. GB 19510.1 Figure G. 2 shows a suitable measurement circuit.
15 start-up requirements
Ballast/control devices shall be designed to ensure that the applicable lamp sufficient number of switching.
Compliance is checked by the following test.
The three new lamp is placed under the rated working voltage to "turn on the lights" 30s, "lights out" 120s for a period of work, each lamp should reach
200 switch. If one of them lights up to less than 200 times, the other to take three lights were tested and each lamp should reach 200 switch
Claim.
200 should switch the lights off in normal mode to emergency mode lights.
After this test, the ballast/control devices should be initiated, so that the three lights work, switch 200 at the rated voltage.
In addition, the three lights should start and in the appropriate reference ballast power supply/circuit work.
In line with GB 19510.4 Appendix J ballast having to do all the tests in this chapter.
16 current and lamp ballast lumen factor (BLF)
Ballast should be limited to the reference lamp arc current so that the current value does not exceed the reference lamp ballast when using the reference
125% of the reference ballast to provide an arc current. The test shall be at ambient temperature was 25 ℃, it should be tested at its rated ballast
Working voltage, the applicable reference ballast should operate at its rated voltage and frequency.
Under the same conditions, the ballast lumen factor should not be less than 95% of the value claimed by the manufacturer.
Note. Measurement can test and test circuit equivalent circuit, shown in Figure 1 is generally light flux with integrating photometer. Because the light at a fixed point
The presence of flux and illuminance close relationship, so a suitable light meter will be sufficient to lumen ratio test.
Reference lamps and ballasts should conform to IEC 60081, IEC 60901, IEC 60921 and GB/T 15144 requirements of.
17 Supply Current
At rated voltage, when the reference lamp ballast and work together with the ballast supply current error value should be less than claimed
± 15%.
GB 19510.8-2009/IEC 61347-2-7.2006
Power supply should be low impedance and low inductance (only for battery away from the ballast).
For the total electrical power system ballasts, DC input current of the alternating current component (RMS) should not exceed 10%, unless the manufacturer
Suppliers particular statement. No sense a voltage across the resistor value of the input can be connected in series by measuring the ballast determined. Across the resistor
DC voltage drop should not exceed 2% of the rated voltage.
If the manufacturer of the AC component of the DC input current is allowed to exceed 10%, it should be used to its hype wave voltage (rms)
Durability test.
Compliance is checked by measurement.
18 either lead (with preheated cathode) Maximum current
Flows into the cathode lead terminal at either end of the current shall not exceed the IEC 60081 and IEC 60901 in the relevant lamp data table Regulation
Value.
Compliance is checked by the relevant test and measurement GB/T 15144 Chapter 11 said.
Lamp operating current waveform 19
The ballast should be able to provide the correct waveform.
In the case of continuous operation of the ballast, when the ballast at its rated voltage to the reference lamp provided steady state
Current waveform should enable the peak current does not exceed the prescribed IEC 60081 and IEC 60901 in the relevant lamp data table lamp nominal operating power
1.7 times the flow.
Compliance is checked by measurement.
20 Functional safety (EBLF)
Connecting the Ballast applicable lamp shall provide the necessary light output after switching to emergency mode. By emergency work during the 25 ℃
Whether the alleged emergency ballast lumen factor to test.
Eligibility is determined by the following test.
a) Battery-Powered Ballast
After the battery is 0.9 times the minimum operating voltage of the AC charging 24h, during the emergency work continuously measuring the electrical supply ballast
Pressure. Voltage measurements is reserved 60s EBLF measurement of (Vp 1) and 60s with rated operating time after the normal power supply failure
Termination lowest voltage (Vp min) time between.
b) non-battery-powered DC centralized power supply ballast
Reserved ballast declared by the manufacturer for the measurement of EBLF rated working voltage (Vp 1) and the minimum operating voltage (Vp min). Unless control
Device manufacturer specified, Vp min is considered to be 0.85 times the rated working voltage (Vp 1).
Note 1. 0.85 times the rated voltage and IEC 60598-2-22.1997 in 22.16.1 consistent.
EBLF measurements should be carried out at 25 ℃, using a suitable type of light and not be ignited 24h, it is depressed for the first time in DC and 5s
1.00 Vp after 60s, then in a stable condition of Vp min.
Minimum retention or Vp min under stable conditions during the 60s and Vp 1, this value should be at least claimed EBLF.
5s when the measured value and Vp 1 shall be at least 50% EBLF of claims.
Note 2. The claim to use in high-risk task area lighting luminaire ballast, with 0.5s 60s alternative test. Because claims must EBLF
After reaching 0.5s, so not considered when measuring 5s.
EBLF measurement and test line may be equivalent test circuit, the light flux shown in Figure 1 is generally integral photometer. Because a fixed
Presence at the point of flux and illuminance close relationship, so a suitable light meter will be sufficient to lumen ratio test.
Note 3. The permanent record may also be used in connection with special test methods ballast lamp luminous flux determined EBLF.
21 conversion
When you switch from normal mode to emergency mode shall not be less than 0.6 times the rated voltage, they can not more than 0.85 times the rated supply voltage.
GB 19510.8-2009/IEC 61347-2-7.2006
When the emergency lights work, the normal power supply to the ballast in 0.5s should be lowered to 0.6 times the rated voltage.
The ballast should switch 500 times, each cycle consists of 2s "Lights Out" and 2s "Lights On" composition (0.85 times the rated voltage), in which 500
And at the end, the ballast should enable emergency lights to work in emergency mode during the switching cycles.
For ballasts with a seating pattern should be able to rest mode is automatically switched from not more than 0.9 times the rated voltage to the normal mode. in
Under this case, the switch test based upon the above stated method, but the "lights out" to extend ...
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