This standard specifies the energy efficiency limit values, energy saving evaluation values, test methods and inspection rules for tubular fluorescent lamp ballasts. This standard applies to independent inductive ballasts and electronic ballasts used in tubular fluorescent lamps with a nominal power of 18W to 40W and a 220V, 50Hz AC power supply. This standard does not apply to electronic ballasts that are not preheated. GB 17896-1999 Energy efficiency limit values ​​and energy saving evaluation values ​​for tubular fluorescent lamp ballasts GB17896-1999 Standard download decompression password: www.bzxz.net

GB17896-1999
Article 5.2 of this standard is mandatory, and the rest are recommended. This standard is one of the energy efficiency standards of energy-consuming products in my country. This standard is specially formulated to implement the "Energy Conservation Law of the People's Republic of China" to save energy, protect the environment, improve the energy utilization efficiency of tubular fluorescent lamp ballasts, and guide enterprises to make progress in energy-saving technology. This standard is formulated based on the current status of production and use of tubular fluorescent lamp ballasts in my country, and refers to similar foreign standards. The safety performance requirements of the tubular fluorescent lamp ballasts to which this standard applies shall comply with GB2313-1993 "General requirements and safety requirements for tubular fluorescent lamp ballasts", GB/T14044-1993 "Performance requirements for tubular fluorescent lamp ballasts", GB15143-1994 "General requirements and safety requirements for AC electronic ballasts for tubular fluorescent lamps" and GB/T15144-1994 "Performance requirements for AC electronic ballasts for tubular fluorescent lamps", and the electromagnetic compatibility requirements shall comply with GB17625.1-1998 "Limits of harmonic currents emitted by low-voltage electrical and electronic equipment (equipment input current per phase ≤ 16A)" and GB17743-1999 "Limits and measurement methods for radio disturbance characteristics of electrical lighting and similar equipment".
This standard was proposed by the State Economic and Trade Commission and the Standards Department of the State Administration of Quality and Technical Supervision. This standard is under the jurisdiction of the Rational Electricity Use Subcommittee of the National Energy Foundation and Management Standardization Technical Committee. This standard was drafted by: China Institute of Standardization and Information Classification and Coding, Beijing Electric Light Source Research Institute, Wuhan High Voltage Research Institute of State Power Corporation, Shenzhen Chengyun Lighting Electric Co., Ltd. of China Electronic Devices Industry Shenzhen Company, Beijing Sitong Matsushita Electric Co., Ltd., International Copper Association (China).
The main drafters of this standard are: Zhao Yuejin, Qu Suhui, Li Aixian, Li Ming, Zhai Kejun, Li Mingyuan, Zhu Hongbin, Liu Shuangqiu, Zhou Sheng. National Standard of the People's Republic of ChinabzxZ.net
Limited values ​​of energy efficiency and evaluating valuesof energy conservation of ballasts for tubular fluorescent lamps1Scope
GB 17896—1999
This standard specifies the limited values ​​of energy efficiency, energy conservation evaluation values, test methods and inspection rules for tubular fluorescent lamp ballasts. This standard applies to independent inductive ballasts and electronic ballasts (hereinafter referred to as ballasts) used in tubular fluorescent lamps with a nominal power of 18W to 40W and a power supply of 220V, 50Hz AC. This standard does not apply to electronic ballasts that are not preheated. 2 Referenced standards
The provisions contained in the following standards constitute the provisions of this standard through reference in this standard. The versions shown are valid at the time of publication of this standard. All standards will be revised, and parties using this standard should explore the possibility of using the latest version of the following standards. GB/T2828--1987Batch-by-batch inspection counting sampling procedure and sampling table (applicable to the inspection of continuous batches) GB/T15144---1994Performance requirements for AC electronic ballasts for tubular fluorescent lamps GB17625.1--1998Limits of harmonic currents emitted by low-voltage electrical and electronic equipment (equipment input current per phase ≤16A) GB17743--1999Limits and measurement methods for radio disturbance characteristics of electrical lighting and similar equipment 3 Definitions
This standard adopts the following definitions.
3.1Ballast efficiency factor (BEF) Ballast efficacy factor A parameter for evaluating the energy efficiency level of the combination of ballast and lamp, which is the ratio of the ballast lumen factor to the line power. 3.2Ballast energy efficiency limited value limited value of energy efficiency of ballasts The minimum ballast energy efficiency factor value allowed under the test conditions specified in the standard. 3.3 The evaluating values ​​of energy conservation for ballasts The lowest ballast energy efficiency factor value for evaluating the energy conservation level of ballasts. 4 Product classification
4.1 Ballasts are classified according to their working principle:
a) inductive ballasts;
b) electronic ballasts.
4.2 Ballasts are classified according to the nominal power of lamps: a) 18 W;
b) 20 W;
c) 22 W;
Approved by the State Administration of Quality and Technical Supervision on November 1, 1999 and implemented on June 1, 2000
d) 30 W;
e) 32 W;
f) 36 W;
g) 40 W.
5 Technical requirements
5.1 Ballast energy efficiency factor
Ballast energy efficiency factor (BEF) is calculated according to formula (1): Where: BEF ballast energy efficiency factor;
ballast lumen factor value,
P. Line power, W.
5.2 Ballast energy efficiency limit values
GB17896—1999
Energy efficiency factors of various ballasts shall not be less than those specified in Table 1. X100
Ballast energy efficiency limit values
Nominal power, W
Inductive type
Electronic type
5.3 Ballast energy saving evaluation value
(1)
Energy efficiency factors of various ballasts shall not be less than those specified in Table 2. For electronic ballasts, the harmonic content in the power supply shall also comply with the provisions of GB17625.1, and the radio disturbance characteristics shall comply with the provisions of GB17743. Table 2 Ballast energy saving evaluation value
Nominal power, W
Inductive type
Electronic type
6 Test method
The energy efficiency factor test method for inductive ballasts and electronic ballasts is the same. 6.1 General requirements for the test
Perform in accordance with the requirements of 5.1 in GB/T15144-1994 6.2 Lumen factor test
Perform in accordance with the requirements of 5.3 in GB/T15144-1994. 6.3 Line power test
Perform in accordance with the requirements of 5.4 in GB/T15144-1994. 7 Inspection rules
7.1 Factory inspection
The manufacturer shall conduct factory inspection on the energy efficiency limit value of the ballast. Products that are found to be unqualified after inspection shall not be allowed to leave the factory. 40
7.2 Type inspection
In order to inspect whether the ballast meets the requirements of 5.2 and 5.3, the manufacturer shall conduct type inspection on the products it produces. Type inspection shall be conducted in any of the following situations: a) Trial design identification of the product;
5---1999
GB 17896
b) After formal production, when there are major changes in structure, materials, and processes that may affect product performance; c) During normal production, it should be conducted periodically every other year; d) When a product that has been discontinued is resumed;
() When the inspection results are significantly different from the last type inspection; ) When the quality and technical supervision department proposes to conduct type inspection. 7.3 Sampling method and judgment rules
7.3.1 Factory inspection
Factory inspection shall be carried out in accordance with the requirements of GB/T2828. 7.3.2 Type inspection
n) When inspecting the energy efficiency limit value, six ballasts are randomly selected each time and divided into two groups for inspection. If one of the energy efficiency readings in the first group does not meet the requirements of Table 1, the second group of samples shall be inspected. If there is still one that does not meet the requirements of Table 1, the product shall be judged as unqualified; b) When inspecting the energy saving evaluation value, six ballasts are randomly selected each time and divided into two groups for inspection. If one of the energy efficiency factors in the first group does not meet the requirements of Table 2, the second group of samples shall be inspected. If there is still one that does not meet the requirements of Table 2, the product shall be judged as not meeting the energy saving evaluation value requirements.
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