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GB 29143-2012: Minimum allowable values of energy efficiency and energy efficiency grades of ballasts for electrodeless fluorescent lamps
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Minimum allowable values of energy efficiency and energy efficiency grades of ballasts for electrodeless fluorescent lamps
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GB 29143-2012
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Basic data
| Standard ID | GB 29143-2012 (GB29143-2012) |
| Description (Translated English) | Minimum allowable values of energy efficiency and energy efficiency grades of ballasts for electrodeless fluorescent lamps |
| Sector / Industry | National Standard |
| Classification of Chinese Standard | F01 |
| Classification of International Standard | 27.010 |
| Word Count Estimation | 9,954 |
| Quoted Standard | GB 17625.1; GB 17743; GB 19510.4; QB/T 2871; QB/T 2938 |
| Regulation (derived from) | National Standards Bulletin No. 41 of 2012 |
| 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 single-ended pole ac supplied electronic ballasts for fluorescent lamps (abbreviation: ballast) The energy efficiency rating, energy efficiency limit, try saving the face value and the method of evaluation. This standard a |
GB 29143-2012: Minimum allowable values of energy efficiency and energy efficiency grades of ballasts for electrodeless fluorescent lamps
---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.
Minimum allowable values of energy efficiency and energy efficiency grades of ballasts for electrodeless fluorescent lamps
ICS 27.010
F01
National Standards of People's Republic of China
Unit electrodeless fluorescent lamps with electronic ballasts energy efficiency
Limit value and energy efficiency rating
Published 2012-12-31
2013-06-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China issued
Foreword
5.3 This standard is mandatory, the rest are recommended.
This standard was drafted in accordance with rules GB/T 1.1-2009 given.
This standard was proposed by the National Development and Reform Resource Conservation and Environmental Protection Committee.
This standard by the National Energy Foundation and Management Standardization Technical Committee (SAC/TC20).
Drafted by. China National Institute of Standardization, Anhui Light YORK Kyushu Co., Ltd., Changzhou Lai Yue Lighting Co., Ltd, the country
Appliances source for Quality Supervision and Inspection Center (Shanghai), Shandong Perth Wright Lighting Appliance Co., Ltd., Connaught Hill Optoelectronics Technology (Shanghai) Company Limited
Division, Beijing Lighting Research Institute, Changzhou Fu Electronics Co., Ltd., Fujian JK Yaming Electric Co., Ltd., Guangzhou Lang Radford Lighting & Electrical Technology
Ltd., Hebei Shijiazhuang Baoshi energy-efficient lighting Technology Co., Ltd., Weihai Dongxing Electronics Co., Ltd. Zhejiang Changhong Electric light source,
Zhe Jiang Xiongbang energy-saving products Co., Ltd., Liaoning Lam Group, Zhejiang Branch Electronic Technology Co., Limited Guangdong Shunxiang energy-efficient lighting technology
The company, Zhejiang Yuguang Lighting Technology Co., Ltd., Nanhai District of Foshan City Luocun Lung Electric Lighting plant joint factory, Jiangmen City affluent US Lighting
Electric Co., Ltd., China Energy Conservation Association, energy-saving and green energy committee, Jiang Suzheng Hui Lighting Technology Co., Ltd., Beijing is the source of the energy-saving win
Technology Services Co., Ltd., Chengdu Dongxu Energy Technology Co., Shanghai Xi Yi Electronic Technology Co., Ltd., Ningbo Nisshin Albert Electronics Co.,
the company.
The main drafters. Zhao Yuejin, Zhang Ngai Ling, Yu Anqi, Pan Shudong, Shen Jin Xiang, Wang Lihong, Geng Zhihai, Wang Jiacheng, Liu Shiqing,
Chandler Feng, Ye Lianying, SUN Xiu Fang, Wang Yingchun, Chen Heping, Li Yongjie, Qian Juan, Fan Yonggong, Dinghai Yong, Wang Gang, Cheng Fei.
Unit electrodeless fluorescent lamps with electronic ballasts energy efficiency
Limit value and energy efficiency rating
1 Scope
This standard specifies the single-ended electrodeless fluorescent lamps with electronic ballasts (abbreviation. ballast) energy efficiency rating, energy efficiency limit, energy assessment
Value and test methods.
This standard applies to 220V, 50Hz AC power supply, rated power coupled outside the electrodeless fluorescent lamp of 30W ~ 400W electronic
Ballast.
2 Normative references
The following documents for the application of this document is essential, dated references, only applies to the version dated paper
Pieces. For undated references, the latest edition (including any amendments) applies to this document.
GB 17625.1 electromagnetic compatibility limits for harmonic current emissions (equipment input current ≤16A)
Limits and methods of measurement of radio disturbance characteristics GB 17743 electrical lighting and similar equipment
GB 19510.4 lamp control apparatus Part 4. Particular requirements for the exchange of electronic fluorescent lamp ballasts
QB/T 2871 Unit electrodeless fluorescent lamps with electronic ballasts
QB/T 2938 Unit electrodeless fluorescent lamps
3 Terms and Definitions
QB/T 2871 and define the following terms and definitions apply to this document.
3.1
Ballast efficiency efficiencyofbalast
ηb
When the reference ballast lamp ignition, with the ratio of output power to the total power input of the ballast and lamp ballasts.
3.2
Ballast energy efficiency limit minimumalowablevaluesofenergyefficiencyofbalasts
Under standard test conditions allow ballast minimum efficiency value.
3.3
Ballast energy evaluation value evaluatingvaluesofenergyconservationforbalasts
Saving ballast under standard test conditions predetermined minimum allowable efficiency values.
3.4
Standby power consumption standbypower
When the lamp connected to the ballast normal working, and the rated supply voltage, the lamp system is in a state waiting for work signal, ballasts
Power consumption.
4 Basic requirements
The ballast should meet safety and performance requirements GB 19510.4 respectively, QB/T 2871; should meet EMC requirements and GB 17625.1
The provisions of GB 17743.
5 Technical requirements
5.1 Energy Efficiency Ballast (ηb)
Energy efficiency electrodeless fluorescent lamp ballast according to (1) calculated.
ηb =
PLmeas
Ptot.meas
(1)
Where.
PLmeas --- measured with reference electrodeless fluorescent lamp ballast power measured in watts (W is);
Ptot.meas --- lamp ballast and the measured total input power, in watts (W).
5.2 Ballast energy efficiency rating
Energy efficiency ballasts divided into three grades, including an energy-efficient, low standby power consumption. Under specified test conditions, Promise fluorescent Town
Each current level of energy efficiency is not less than a predetermined value in Table 1. Table 1 lists the rated power value of the lamp ballast is not its efficiency by linear interpolation
Determined value method. The ballast has a standby function, each energy efficiency rating of ballast shall also comply with the provisions of 5.5.
5.3 ballasts energy efficiency limit
Under prescribed test conditions, the ballast energy efficiency limit of not less than a predetermined value in Table 3 stages.
Ballast energy evaluation value 5.4
Under the specified test conditions, the ballast energy efficiency should be not less than the value specified in Table 1 Level 2.
Table 1 electrodeless fluorescent lamp ballasts energy efficiency rating
rated power
effectiveness/%
Class 1 Class 2 Class 3
30 93.0 89.7 85.1
40 93.1 89.8 85.2
45 93.2 89.9 85.3
48 93.2 90.0 85.4
50 93.3 90.1 85.5
55 93.4 90.2 85.6
70 93.5 90.3 85.7
75 93.6 90.4 85.8
80 93.7 90.5 85.9
85 93.8 90.6 86.1
100 93.9 90.8 86.2
120 94.0 90.9 86.3
125 94.0 91.0 86.4
135 94.1 91.1 86.5
150 94.2 91.2 86.6
TABLE 1 (cont.)
rated power
effectiveness/%
Class 1 Class 2 Class 3
165 94.3 91.3 86.7
180 94.4 91.4 86.8
200 94.5 91.5 86.9
220 94.6 91.6 87.0
250 94.7 91.7 87.2
300 94.8 91.8 87.3
400 94.9 91.9 87.4
Note. in Table 1 in terms of efficiency retained after 1 decimal digits, the first two digits after the decimal point is rounded.
5.5 standby power consumption
For ballast with standby power function, an energy efficiency of the ballast standby power consumption should not exceed 1W; two energy efficiency of the ballast to be
Machine power should not exceed 2W; three energy efficiency ballast standby power consumption should be less than 3W.
6 Test methods
6.1 Ballast energy efficiency testing electrical and conditions
Test Method for energy efficiency of the ballast should be carried out under a predetermined figure, test conditions should meet the requirements of the Appendix A.
Description.
FLB --- Promise fluorescent lamp ballasts;
SFL --- benchmark electrodeless fluorescent lamps;
PM --- power meter;
S1-1/S1-2 --- double throw switch;
--- CHl measuring the ballast input digital power meter;
Measuring the CH2 --- ballast output of digital power meter;
V --- power meter a voltage measuring circuit;
A --- power meter current measuring circuit;
--- single throw switch S2.
FIG formula 1 outcoupling efficiency electrodeless fluorescent lamp ballasts detecting circuit
Efficiency Test Procedure 6.2 ballasts
When the detection efficiency electrodeless fluorescent lamp ballast circuit according to FIG. 1, S2 before the start of the lamp should be in open state, to protect the voltage CH2
Circuit is not subjected to a start pulse, so as not to damage the instrument. After cooperates with the lamp ballast to stabilize at rated voltage, S2 is closed, each read
Power meter readings and CH1 (i.e. ballast - total lamp input power) and the power meter readings CH2 (i.e., power electrodeless fluorescent lamps), by 5.1 meter
Calculated ballast efficiency.
6.3 Energy Efficiency sampling method the test sample
Energy efficiency rating relevant items are detected by three samples, using the detected energy efficiency rating average of 3 samples is determined.
Appendix A
(Normative)
Test conditions
A.1 ambient temperature
The tests should be performed at a draft-free room and ambient temperature of 20 ℃ ~ 27 ℃.
A.2 supply voltage
A.2.1 test voltage
When the ballast has superscript supply voltage range used, or separate ballast having several different nominal supply voltage, the ballast
Is any of a predetermined voltage employed may be selected as the rated voltage.
A.2.2 Power Stability
For most of the tests, the power supply voltage should remain stable within ± 0.5% of the rated voltage. However, during the actual measurement, the voltage
Error should be adjusted to within 0.2% of the rated voltage.
Test power supply voltage waveform A.2.3
The total harmonic content of the supply voltage test should not exceed 3%; is defined as the harmonic content of each harmonic component rms (rms) Total
And the fundamental wave is defined as 100%.
A.3 magnetic effect
There should be no any magnetic object within 25mm away from the surface of the test the ballast range, except when otherwise specified.
A.4 reference lamp mounting
To ensure the consistency of the electrical characteristics of the reference light, the reference position of the lamp to be installed in accordance with instructions of the corresponding parameter table lamp. in case
The parameter table lamp installation instructions are not given, the lamp should be installed horizontally.
It recommends the lamp fixed in its persistence in the test socket.
A.5 reference light requirements
A.5.1 Before taking measurements, so that the lamp should reach a steady operating state. Should not be playing such as arc discharge unstable spin or shake
phenomenon.
A.5.2 When one has a Aging under the conditions specified in Annex A 25 ℃ (or at least 100h lamp manufacturer with a reference ballast and
Work together, when the operating power of the lamp current, lamp voltage or lamp and QB/T 2938 standard to the claims 35 ℃) ambient temperature
Differences respective predetermined nominal value is not more than 2.5%, the reference light to meet the requirements of the lamp.
A.6 position relative to the mounting and connecting wires
Test reference relative position of the ballast and the lamp during the test, and the lead wire length is connected to the other as far as possible consistent with its intended use
Relative installation positions.
A.7 characteristics of the instrument
Test characteristics of the instrument should meet the following criteria.
a) voltage line
Measuring the lamp voltage circuit impedance should be high enough that the shunt should not exceed 3% of the lamp current.
b) a current line
Measuring the lamp current loop should be sufficiently low impedance, the voltage drop does not exceed 2% of the lamp voltage.
c) measuring the effective value
Measuring device should satisfy the rms measurement, and should be compatible with the operating frequency of the lamp.
It is noted that the measuring instrument does not interfere with the test capacitance to ground of the work member, the low-potential measuring points of the subject line is at ground potential.
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