This standard specifies the performance requirements for ballasts for discharge lamps, including high-pressure mercury lamps, low-pressure sodium lamps, high-pressure sodium lamps and metal halide lamps. Each chapter specifies specific requirements for a particular type of ballast. This standard discusses external ballasts for inductive discharge lamps using an AC power supply of 50Hz or 60Hz and less than 1000V. The rated power, dimensions and characteristics of the lamps shall comply with the provisions of the corresponding IEC lamp standards. This standard should be used together with GB 19510.10. GB/T 15042-2005 Performance requirements for ballasts for discharge lamps (except tubular fluorescent lamps) GB/T15042-2005 Standard download decompression password: www.bzxz.net

TCS 79. 140. 30
National Standard of the People's Republic of China
CB/T15042-—2005/TEC60923.2001
Auxiliaries for lamps-
Ballasts for discharge lamps(excluding tubular fluoresrent laumjs )-Pertormance reguirements
(TFC 60923;2001,HYI)
2005-01-18 Issued
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China Standardization Administration of China
2005-08-01 Implementation
1 Summary
1 Description of the test
1. Ballast power constant under different power sources
Power supply current
must flow Waveform
Trigger
Chapter 2
11 Adjustment of galvanometer
Creation station
Chapter 1
General requirements
GB/T15042—2005/EC60923:230: Electrical requirements for galvanometers for high-pressure mercury lamps
Open circuit voltage (small cell pressure in fixed plant)Chapter 3
4 Specification of galvanometers for liquid and power supply 1. Electrical requirements for ballasts for low-pressure sodium lamps 2. Open circuit voltage (minimum working voltage) (4 articles) 3. Ballast adjustment 4. Short-circuit current and short-circuit conditions 5. Electrical requirements for ballasts for metal halide lamps 6. Open circuit voltage (minimum working voltage) (5 articles) 7. Short-circuit current and short-circuit conditions 8. Open circuit voltage (minimum working voltage) (5 articles) 9. Appendix A (Characteristics) (Special)
Appendix C Appendix:
Except F (non-recorded in this standard)
This standard contains general requirements for ballasts
Electrical requirements for ballasts for high pressure sodium lamps
The test environment for the working self-current waveform of the lamp is generally stated
GA/T15042-2CC5/TKL:60923:2001F recorded! 2. The current of low-voltage lamp ballast is measured by the test circuit diagram of the test circuit of the basic ballast. Figure 3. The current ratio of the basic ballast is measured by the test line of the test current terminal. Figure 5. The current of the standard lamp is measured by the test line of the standard lamp. Figure 6. The current test circuit of the lamp is tested by the basic ballast and the test current terminal. Table 2 shows the waveform of the self-current of the lamp workpiece, and the effective value is converted into a meter. Standard conductor theory is compared with GKT15042-2005/50923:2001. ECS3323:2 001 Standard for use with Yin Yang T tubes except colored fluorescent lamps. Energy consumption requirements 3! English Liu translation 1:543:200
In order to make it easier to use, the following three standards have been edited:) E60925 is changed to "standard", EC60923 is changed to "GT15043"; E23 and:
use small effective point \, replace "," as the decimal point: 2:21 Other international standards that can be used are marked as ours, and these national standards of our country are used instead of the international standards listed in the industry. The remaining technology has adopted the relevant international standards of our state. In this part, they are all used as the standard. 2 Appendix Appendix is ​​the specification for the scientific and technological records of the F step pipe. The Shanxi Light Industry Federation Gongxing City: A standard for all lighting equipment is issued by the SA technical committee: The standard has been drafted by a single company: Fuyiyuan Lighting Industry Co., Ltd., 1 Haiye Mingxiao Lamp Co., Ltd., "Yan Ben Shengxin Co., Ltd., Shanghai Lianrong Electric Lamp Factory, Shanghai Jingdouxin Co., Ltd., Feili Lighting Co., Ltd., Shanghai Longyuan Lighting Co., Ltd., Sanhai Electric Longyuan Quality Inspection Center, Shanghai Yuanming Service Equipment Co., Ltd. This standard is to start people, Zhang Hequan, Meizhu, Gu Senlin, Jing Zhuiqi, Kuanshiren, for red, Xueri, An Ying, Gui Xie Zhang Yixi, Ye Jishuang,
This standard is not formulated for the first time,
This standard is implemented on the date of K/110421416, the performance cost of the lamp pool H ballast is calculated and Q:13052394, Chengguang High School, the energy flow device for the lamp pool will be stopped. m
1 Total purchase
1.1 Fan page
:H/T 15C42-2005/IE:69923.2001 Ballasts for discharge lamps (except tubular halogen lamps) performance requirements
Part 1
100% requirements
This standard specifies the performance requirements for discharge lamps, including high-voltage lamps, low-voltage lamps, sodium lamps and metal fluoride lamps. This chapter specifies the requirements for special types of sodium ballasts: specific changes. It is an inductive discharge lamp that uses 5H2 or 5)H1 power supply with a current density of 100A. The rated rate of the lamp, the size and characteristics are in line with the corresponding F lamp standards. This mark is (T, 3310.1--Starting from: Let: the main industry and industry should use the "ballast" for the lamp, and also for the long-term installation of the ballast with or without load or other devices. The result is obtained from the sales demand,
Note! For the current loss and current loss of independent products, there are certain ground standards. In this regard, the method of setting the lamp is the original, the control installation is modified, and the material is noted in this industry standard
1.2 Specification Production Reference Document
The following documents are the clauses of this standard and become the clauses of the standard from the date of note. They are modified and revised with the production (no major errors) (no color scanning plan) and become the standard. Before maturity, the various standards can be achieved. The latest version of this English document can be found and used. The latest version of the document is not available. The latest version applies to three standards: 6R1951. Lighting control devices Part 1: Special requirements for starting devices (except searchlight starters) 19510.200:.IEC$13.-2-1.2000.IDT:
K10, Standard lighting Part 1: Special requirements for wavebands (except for mandatory values) (2004,IEC 5.327-2-U:20t,I
1F8 high quality lamp
6340 counting inspection full Swiss side for the unique sequence
:355 high voltage
FL tubular fluorescent lamp ballast must be complete
TF.C: 51143
metal required commercial chemical lamp
2 Definition
Adopt the definition specified in GB1451.10 room
3 About the test period
3.1 This standard specifies the test for the single lamp Note: The requirements and tolerances described in this standard are determined for the type test under this test. The type test of the product can be reported to the manufacturer at the production point. This standard is for the production of technical samples of "car products", and the US may have the intention to determine the specifications of the product book and the standard of the country's sales device,
GB/T150/2-2005/1F$3923:2001 related technical program, or
3.2 Each preliminary test shall be carried out in accordance with the clauses and regulations, except when otherwise specified. 3.3 A sample shall withstand all the certification costs,
3.4 Normally, all tests shall be carried out on each liter of the chain flow device. In the absence of similar specifications, the ballast shall be identified in the specification, and the rated current shall be selected from the manufacturer approved by the manufacturer. 3.5 The total reading ballast and busy light shall comply with the requirements of Appendix A and Appendix B. 6. The test can meet the requirements of the system. 3.7 All ballasts specified in this standard shall comply with the requirements of B1S13.3. 4. The marking of the high-voltage device shall not be less than the applicable supplementary marking. For example, the line moving number of China.3
5 The ballast charger can work under the uninterrupted rated voltage. It is proved that the ballast group shall be in the same room under the common power point. The negative ballast with tap connector shall be tested and the power factor of the tap connection batch shall be recorded in the near future.
When the ballast monitor is connected with one! The voltage and frequency of the lamp are only 1, and the load will not exceed 5
. For the commercial efficiency current reader, in addition to meeting the "reverse addition parts", we can also recognize the line effect due to the small card effect. When the power supply is on and the lamp is working under the actual voltage, the current difference between the current locked by the current lock device should be less than
2 battery waveform
day.1 The working current waveform of the lamp
and the current lock device are working under the effective voltage. The ratio of the maximum value of the compensation to the effective value cannot exceed the value given in 1: Table 1 The working current waveform of the lamp. However, the ratio of the peak value to the effective value is the same as the maximum value before the effective value
Shun Le Le
Jin Chang 8.2 Test procedure
The power supply should be tested with a waveform analyzer, a large inductor and a positive resistor. The given wave should not be significantly affected by other devices when measuring the given wave. The lamp current should be measured with a fast receiver or an oscilloscope. This type of resistor should have a low value that does not exceed the nominal value of the lamp. 5%, 2
GB/T15U42—2095/IEC 60923.200 Select the type table or the method of falling distribution machine. The wavelet device should be connected to the core ground and replaced in the power supply. During the two verification periods: the company must disconnect the unused resistors, not just the medicine, and pay attention to the different rates of the psychological play of the book. In addition, when calculating the formula, the three-layer scale C.2 power supply should be withdrawn from the selection. There is no source of change except the source of the model. The micro-current device should be able to effectively withstand: the part is close to the magnetic material of the album, and the cooperation has adopted the following connection test for inspection. The feeder is connected to the applicable power treasure 1. In the special stable state, the length will be: the length of the test source must be greater than the corresponding virtual size of the current device under test and the clock current device book each surface protection technology: m: in the north selection of the car plan, the current mountain to the board The change of lamp current caused by the operation of the ballast should not be interpreted as meeting the requirements of 3310.2.
Chapter 2 Electrical double requirements of high-voltage lamp ballasts 11 Careful supervision of the regulation
ballast current monitoring will supply its non-hitting power current limit to within the specified range. When compared with the reference voltage of the mountain building test call, the fast rate should not be lower, and the 9.5 active current should not be higher, the name is inside! Governance. The reference ballast and zero reduction lock current should be issued by the company's new recognition rate, and the rated current should be "made" under the rated current of the book. For the external power supply voltage between 2% and 106, the reference lamp is supplied by the current-reliable circuit. The power of the lamp is 892 rated current. The company is tested and collected during the test of the fixed current!
Test the final safety purchase diagram? The line is slightly opened and closed during the period of protection, and the switch S is opened again to make the difference with the station and the modified device is equipped with 1.
:7 short-circuit current
When the short-circuit current device uses its rated current of 32~35:, the voltage is within the range of 32~35:, the new short-circuit current for the industry does not exceed the given monthly current: 8.
Test sample. Section
Test quarantine requires the small load shown in Figure 2 to exercise the switch S in the upper position for the period, and make the blood rise and close % in the lower position for the period. 13. Switching voltage (minimum voltage required for specified operation) When the voltage is lower than 10% of its rated voltage and the rated locking rate is 1, the power it provides should not be less than the actual voltage provided by E core.
3. The electrical requirements of the ballast for low-pressure sodium lamps 14. The ballast current should be able to control the basic current. The line with nominal electric current should be designed as follows: such as electromagnetic driving circuit) This value is set in the center of the basic ballast according to the same lamp. For example, for circuits with nominal non-small current waveforms (such as those specified in GB/115042-2005/IFC50923.2001) with a rated rate drop within the limit of % ", the reference quality method and the tested current transformer should be operated at the same rated voltage. For any power supply voltage between 2 and [6] of the rated voltage, the standard current should be recorded with a hand with a nominal current waveform. The value of the ballast is divided into: the standard ballast value must be controlled and the ballast value must be constant at 9:139: between 9 and 139: the lamp level 4 has a natural line voltage waveform, but the industry is under 5~19.5% between the inspection procedure
the whole control circuit is shown in the practice notes, the switch, the gold setting on the control, the indicator S stops the lamp and the test ballast current is compared with 1:
15 short-circuit current and starting conditions
15.1 for parallel starting current At the end, when the ballast is between 92% and 106% of its rated value: the preheating voltage should not exceed that specified in IEC9. The test sequence specified in IEC9 shall be adopted. The test sequence shown in Figure 2 shall be used. The switch shall be in the upper position for a period of time and the lower position shall be closed; for ballasts with power supply, when the ballast is at the rated voltage and the test current shown in the following table is forced through a one-yuan insulator load, the overall intermediate voltage of the ballast shall not be lower than the value given in the test sequence. Table 2 Test circuit
power: W
14:
23:
The minimum output voltage of the device
15.3 The start-up requirement of the trigger is still under study. 16 Open drop voltage (the minimum voltage required for stable operation: only the start-up voltage is required for the device without starting:
The test current is more efficient than
When the current is fixed at its frequency When the voltage is between 92% and 1GG, the current supplied by the IC should not be lower than the value specified by IC1S. The ratio of the effective value to the value of IC1S is significantly smaller than that of IC1S. The electrical requirements of the ballast for halide lamps in Part 4 are as follows: "7 The adjustment of the current limit and the various requirements and test methods are still under research. 18 The short-circuit current and starting current of the ballast should meet the relevant positive standards. The corresponding starting current is the amount of measurement. If there is no such number in the standard, the manufacturer shall make a consultation and test. 1) Standard six, non-lamp current: H method, for the line with non-strong total ground drop, the current limit value is determined to be lower than the line with stop lamp radio wave. GH/T15342--2005/IK609232001||tt ||IEC.II7 The maximum peak value of the current flowing through the lamp shall be tested according to the following requirements (the user shall consult the lamp manufacturer for the standard data! a) Test load
Test level circuit see Figure 6
The impedance of the power supply shall be low so as not to affect the test result, and the power supply shall also be a voltage drop of 42V: such as: 1Y249.G39). u: Take the type of lamp: and calculate according to the following formula: Nt. = 2(1, rnxR +Txm4c.wwW.bzxz.Net
R: During the test, the voltage drops by 1V.
Test sequence
The temperature of the ballast under test shall be (2b ± ℃) within 3 hours after the ballast is connected to the power supply. The peak current is measured. The normal lamp is normal. Note: The ballast under test shall be monitored again. The ballast shall be tested in accordance with the requirements of the specification. The current value measured under the standard voltage shall not exceed the maximum constant value specified in the corresponding design. If there is an applicable value, please consult the lamp manufacturer) 15 open circuit voltage (minimum voltage required for specified operation). The requirements and tests shall be studied. Chapter 5 Electrical requirements for ballasts for high pressure sodium lamps 20 Ballast adjustment
20. 1. The power factor of the reference lamp shall be estimated by the current source. The power factor of the reference lamp shall be the same as the power factor of the reference lamp in the table 1E:002. The power factor of the reference lamp shall not be less than 3% of the corresponding value of the reference lamp supplied by the reference current source. The power factor of the reference lamp shall not be less than 105% of the corresponding value of the reference lamp supplied by the reference current source. The power factor of the reference lamp shall be calculated according to the following requirements: 21. The power factor of the reference lamp shall be calculated according to the following requirements: 20.2 Test procedure
According to the requirements of Appendix
Standard lamp: Carry out the test according to the requirements of B. Use the corresponding core ballast to make the lamp work. And during the period of high voltage increase, the voltage of the lamp should be continuously recorded by the high voltage meter (more than 5√) between the gate voltage and the lamp. The voltage of the lamp should be increased to the maximum value specified in the parameter table. If necessary, the lamp voltage can be artificially increased to the maximum limit.
Methods: Artificial high voltage method: record the ECG in the lake F, turn off the lamp and cool it for at least 5n. Then use the test ballast to connect the test ballast to the test device. The test results will be verified by the test ballast or by the line. The horizontal axis is used to represent the output voltage, and the multiplication axis is used to represent the lamp power. (See attached. The relevant provisions of TC622002 are in the B. The evaluation system of the two limit values ​​of the national standard is still in the research of CB/T15042-2CC5/1F.r50923:200121 circuit power economy
When the short-circuit current of the current transformer is between 12% and 1% of the rated actual current, it should not be lower than the standard current given in 60662.
The ratio of the rated current of the circuit transformer to the nominal current should not exceed the value shown in the table 3. Table 3 Short-circuit current ratio
Opening four-voltage
Ratio (East China University of Finance)
When the power supply is between 2% and 1% of the rated actual current and the frequency, the power it supplies should not be less than the starting test voltage of the lamp given in the table E:6SS2 for most of the corresponding lamps
|Zero voltage test ballast:
its standard design,
Figure 1 The test ballast:
with pre-power talk:
especially the well lamp
Note, the test is a success. This circuit or switch will be affected by the Sichuan, and the lamp will be safely and quickly connected from one collector to another. The light is required in the south. The test circuit of the low-voltage lamp ballast
its standard scope
G;B/115042-205/IEC:60923;200 Figure 3 Recommended voltage/current ratio of the reference ballast
4 Recommended measurement circuit for the power of the reference ballast
Recommended circuit for selecting standard lamps||tt| |Relevant environment research ticket
shown in Figure 6 lamp starting current test circuit
CB/T15042-2005/TRC60923:2001A.1 Marking
(Normative Appendix)
reference ballast
its standard and durable markings shall be marked with the following 4.1.1 fixed impedance reference ballast
“ballast end” full mark,
the seller and or manufacturer’s identification mark. Series number
good model, rated voltage or lamp name and control circuit and version
adjustable impedance reference ballast
“ballast end” full mark,
the seller and or manufacturer’s identification mark; series!
Rated duty and overload rate:
Rated frequency medium voltage/current ratio range
Current flow;
The maximum
Applicable slow-speed line of the figure,
2.2 Characteristics
A, 2.1 General design requirements
The reference current is composed of one or more induction coils, equipped with or equipped with auxiliary circuits, and has the design requirements specified in the relevant standards!
Benzene filter ballast performance test and measurement are carried out when the stable drug surplus state is reached, and the reference current of the medium voltage/current ratio changes is analyzed to meet the requirements of this appendix, and it can be used. 4.2.2 Voltage/current ratio
When the calibration current flows through the reference terminal, the voltage/current ratio supplied by the reference current sensor under the calibration current shall comply with the parameter table of the inductor, with a tolerance of 0.5: Under any current condition between 0 and 11 of the calibration current, the voltage/current ratio is allowed to have a 13% error with the standard value of the inductor. Figure 3 shows a typical test circuit. If this circuit is to be used, the current loss caused by the voltmeter must be compensated: However, the voltage meter should meet the requirements of (h,,. Add micro (Company rated value (> this complete agent, etc., the measured medium voltage value should be corrected according to formula (A.1). Plastic rate (voltage ×
rated frequency! At the heart of the time
A.2.3 Power factor measurement
The final circuit shown is the type of city for determining the power factor. The power loss of the generator should be appropriately compensated. A.15
A.2.4 Magnetic shielding or magnetic protection
The current energy product should be equipped with an anti-magnetic protection kinetic energy (for example, using a suitable steel outer wall), and then a 13.5mm thick pipe should be passed through the low-breaking clock core disk.Figure 3 shows a typical test circuit. If this circuit is to be used, the current loss caused by the voltmeter must be compensated: However, the voltage meter must meet the requirements of (h,). Add a micro (company rated value (> this complete agent, etc., and the measured medium voltage value should be corrected according to formula (A.1). Plasticity (voltage ×
rated frequency! The heart of the time
A.2.3 Measurement of power factor
The final figure shows a typical city circuit for determining the power factor. The power loss caused by the transmitter should be appropriately compensated A.15
A.2.4 Magnetic shielding or magnetic protection
The current energy product has an anti-magnetic protection kinetic energy (for example, using a suitable steel outer wall), and then pass a 13.5mm thick pipe through the low-breaking clock core disk ten.Figure 3 shows a typical test circuit. If this circuit is to be used, the current loss caused by the voltmeter must be compensated: However, the voltage meter must meet the requirements of (h,). Add a micro (company rated value (> this complete agent, etc., and the measured medium voltage value should be corrected according to formula (A.1). Plasticity (voltage ×
rated frequency! The heart of the time
A.2.3 Measurement of power factor
The final figure shows a typical city circuit for determining the power factor. The power loss caused by the transmitter should be appropriately compensated A.15
A.2.4 Magnetic shielding or magnetic protection
The current energy product has an anti-magnetic protection kinetic energy (for example, using a suitable steel outer wall), and then pass a 13.5mm thick pipe through the low-breaking clock core disk ten.
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