GB/T 19655-2005 Performance requirements for accessory starting devices for lamps (except glow starters)
Some standard content:
ICS 29. 140. 30
National Standard of the People's Republic of China
GB/T 19655—2005/1EC 60927:1996Auxiliaries for lamps-
Starting devices (other than glow starters)-Performance requirements
(IEC 60927:1996,IDT)
Published on 18 January 2005
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China Administration of Standardization of the People's Republic of China
Implemented on 1 August 2005
GB/T 19655—2005/IEC 60927:1996 This standard is equivalent to IEC60927:1996 "Performance requirements for actuating devices (except glow starters)" and its 1999 amendment (English version). This standard is equivalent to the translation of IEC:60927:1996 and its 1999 amendment. In order to facilitate the use of this standard, the following logical modifications have been made: a) The decimal point "," is used instead of the comma ", " as a decimal point; b) "This international standard" is replaced by "this standard": except for the foreword of the international standard; d) For other international standards cited in IEC60927 that have been adopted as equivalent to our standards, this standard quotes these national standards or industry standards of our country instead of the corresponding international standards. The rest of the international standards that have not been adopted as equivalent to our standards are directly quoted in this standard.
Appendix A in this standard This standard is a normative appendix, and Appendix B and Appendix C are both informative appendices. This standard is proposed by the China Light Industry Federation and is under the jurisdiction of the National Technical Committee for Standardization of Lighting Appliances (SAC/TC224). This standard was drafted by Shanghai Yaming Shuangdeng Lighting Appliance Co., Ltd., Fujian Yuanguang Yeming Electric Co., Ltd., National Electric Light Source Quality Supervision and Inspection Center (Shanghai), and Shanghai Yuanming Lighting Appliance Co., Ltd. The main drafters of this standard are: Jiang Baoqi, Zhang Hequan, Yu Anqi, Ye Jikou, and Zhu Liang. This standard is formulated for the first time.
GB/T 19655--2005/IEC 60927:1996 Performance requirements for starting devices for lamp accessories (except glow starters)
Part 1 General requirements
This standard specifies the performance requirements for starting devices, starters and triggers for tubular fluorescent lamps and other discharge lamps using 50IIz or 60I1z, 1000V AC current or less. Such starting devices can generate starting pulses not exceeding 5 kV. This standard should be consistent with GB 19510.2-~.
Note: The requirements for all glow starters (including thermal relays/circuit breakers) for fluorescent lamps and other discharge lamps are given in IEC60155. 1.1 Normative references
The clauses in the following documents become clauses of this standard through reference in this standard. For all the referenced documents with a date, all subsequent amendments (excluding errata) or revisions are not applicable to this standard. However, the parties to the agreement based on this standard are encouraged to study whether the latest versions of these documents can be used. For undated referenced documents, the latest versions are applicable to this standard. GB7000.1 Luminaires-General safety requirements and tests (GB7000.1-2002IEC60598-1:1999, Luminaircs-Part1:General requirements and tests, IDT) GB/T15042 Lamp accessories Performance requirements for ballasts for discharge lamps (except tubular fluorescent lamps) (GB/T15042--2005, IEC 60923.2001.IDT
GB/T18595——Electromagnetic compatibility immunity requirements for general lighting equipment (GB/T18595-2001, IEC61547:1995, IDT) GB19510.2 Lamp control devices Part 2: Particular requirements for starting devices (except glow starters) (GB19510.2-2005.IEC 61347-2-1:2000, IDT) GB19510.10 Lamp control devices Part 10: Particular requirements for ballasts for discharge lamps (except tubular fluorescent lamps) (GB I9510,1-2004, IFC 61347-2-9:2000,IDT)16C60081
Performance requirements for double-ended fluorescent lamps
IEC60155
Starters for fluorescent lamps
IEC60192 Low-pressure sodium lamps
IEC60662 High-pressure sodium lamps
TFC 60801
Performance requirements for single-ended fluorescent lamps
IEC 60921
Performance requirements for ballasts for ballast-type fluorescent lamps
IEC61167 Metal halide lamps
2 Definitions
Adopt the definitions in GB 19510. 2 and the following definitions 2.1
Starter with mechanical switching components elemeneStarter that provides cathode preheating current and lamp starting pulse by mechanical means (e.g. thermal or magnetic parts), 2.2
Starter with electronic switching elementStarterwtthelectronicswitchingelementA starter that provides cathode preheating current and lamp starting voltage or pulse by electronic means and has no moving parts, GB/T 19655—2005/IEC 60927:19962.3
Deactivated lampdeactivatedJanp
A lamp in which one or both cathodes have lost the emitting material but one cathode is still damaged. 2.4
non-re-operating level
Non-re-operating level
A low level of voltage and or current that causes the starting device to stop operating after the start is completed while the lamp is still operating normally. 2.5
Maximum abnormal current maximum ahaormal currejtThe continuous effective current flowing through the ballast when the circuit is in an abnormal state (e.g., deactivated lamp or lamp has been removed) and which shall not be exceeded at the end of the starting cycle. 2.6
Starting aid
The starting aid may be a strip-shaped conductive part fixed to the outer surface of the lamp, or a shaped conductive part installed within an appropriate distance of the lantern. The starting aid will only work when there is a sufficient potential difference between it and one end of the lamp. 2.7
Maximum case temperature under abnormal conditions (r.+x) maximum cast temperature (t+X) The maximum permissible case temperature of the igniter when the igniter and metal halide lamp are in the normal state. The value of (t-X) is declared by the manufacturer.
3 General requirements for tests
3.1 This standard only covers type test requirements. All tests shall be carried out at an ambient temperature between 10℃ and 30℃, unless otherwise specified. The test shall be carried out in the order of the clauses in this standard. Samples shall be provided in the following quantity requirements: 1. Six starter samples as defined in 2.1 and 2.2: 2. Four trigger samples (including the circuit components necessary for the test, if necessary) 3.2 Power supply voltage:
The total harmonic content of the power supply voltage shall not exceed 3. The harmonic content is defined as the sum of the effective values of each harmonic component, and the fundamental wave is 10%%. It should be noted that this requirement applies to all situations occurring during the measurement. Note: This requirement means that the power supply should have sufficient power and the power supply line should have a sufficiently low impedance at the power supply frequency and pulse frequency compared to the impedance of the ballast. Connecting a large nanometer capacitor in parallel to the power supply can obtain the correct impedance under pulse frequency. 3.3 All starting devices specified in this standard shall comply with the requirements of GB19510.2. 3.4 All starting devices specified in this standard shall comply with the requirements of (3/T18595: Note: The requirements for good starting devices in GR/T18595 are under research and verification. 4 Marking
Use the marking requirements of GB19510.2 and the following marking requirements, which should be clearly marked on the starting device or indicated in the manufacturer's product catalog or similar documents.
a) The manufacturer shall comply with 2. and 2.2 Definition Description Type of switch component: b) The manufacturer shall specify the maximum load capacitance that can match the trigger to work: c) The manufacturer shall specify the maximum allowable external temperature (, X) of the trigger under abnormal conditions. 5 Scope
GB/T 19655—2005/IEC 609271996 Part 2 Performance requirements for starters for fluorescent lamps (except glow starters) This part specifies the performance requirements for starters (except glow starters) used in conjunction with tubular preheated anode fluorescent lamps and their related ballasts (see IEC60081 and 1EC60921)
6 Shoulder test
6.1 Number of starting test samples
Number of starting test samples The six new starters that have undergone the tests specified in GB19510.2 constitute 6.2 Qualification conditions
If all six starters can meet the requirements of the corresponding tests specified in 6.4 to 6.8, the type of starter is deemed to meet the requirements of this chapter. If one starter fails the test, six more starters shall be selected for the test and all of them shall comply with the test requirements. If more than one starter fails the test, the type of starter shall be deemed not to have been submitted to this requirement. 6.3 Test conditions
6.3.1 Circuit
The starter shall be tested in the circuit specified by the manufacturer. The starting aids required by the table shall be used, unless otherwise specified on the starter or in the manufacturer's product catalog. In case of doubt, the selection shall be made by mutual agreement between the inspection body and the manufacturer. Table 1 Requirements for starting aids
Lamp diameter / mm
15/25/38
Starting aid width / mm
Distance from lamp' / mm
Note: The starting aid only works after the outer surface of the lamp has been dried and a certain distance from the lamp is maintained. * Strip-shaped parts fixed on the surface of the lamp.
6.3.2 Ballast
Not less than the length of the lamp
The ballast used shall comply with the relevant requirements of IFC60921. Its rated voltage shall be equal to the source voltage or the minimum value of the supply voltage range required by the design of the starter. The rated power of the selected ballast shall be able to provide the most unfavorable starting conditions for several types of lamps suitable for the starter. In case of doubt, the rated power of the ballast shall be consistent with the main type of lamp suitable for the starter. If the design requires the starter to work with different types of ballasts (for example: capacitor or inductive ballast), both types of ballasts shall be used in the test.
The lamp shall be of preheated polarity-proof type and shall comply with the relevant requirements of FC6081. The rated power of the lamp shall be consistent with the rated power of the ballast used.
For the mechanical starter defined in 2.1, the applicable lamp is generally the "with starter" type. For the electronic starter defined in 2.2, the applicable lamp is usually the "without starter" type. If the manufacturer indicates that a lamp "with starter" or "without starter" can be selected, the "with starter" type lamp should be used. 6.4: Starters equipped with mechanical switching components 6.4.1 Working speed
a) Current-controlled starter
GB/r19655--2005/IEC60927:1996 Connect a current equal to the minimum preheating current specified in the parameter table of the corresponding lamp in IFC60081 into the circuit. For starters equipped with circuit breakers, at least start times shall be completed during the 30s test period. For starters that can be started continuously, at least two starts shall be made during the 30s test period. The test is to be conducted with a deactivated lamp or with a resistor equivalent to two series-connected cathodes as specified in the parameter table for the corresponding lamp in IEC 60081:
b) Voltage-controlled starter
A voltage of 0.92 times the rated voltage of the ballast is applied to the line. For starters equipped with a circuit breaker, at least one start is made during the 30 s test period. For starters capable of continuous start, at least two starts are made during the 30 s test period. The test is to be conducted with a deactivated lamp or with a resistor equivalent to two series-connected cathodes as specified in the parameter table for the corresponding lamp in IEC 60081.
6.4.2 Cathode preheating
A voltage of 0.92 times the rated voltage of the ballast is applied to the line. The starter shall be able to heat the cathode of the lamp sufficiently. The preheating current shall comply with the provisions of the parameter table for the corresponding lamp in IEC 60081 or with the lamp manufacturer's requirements for preheating current and heating time. 6.4.3 Pulse voltage
The circuit for measuring pulse voltage is shown in Figure 1. A voltage of 0.92 times the rated voltage of the ballast is applied to the line for 305 seconds. During this period, at least one pulse voltage not less than the maximum pulse voltage value given in the "Starter setting parameters" column of the parameter table of the corresponding lamp in IFC60081 should appear (one of the two voltmeters shows). If the design requires that the starter can be used for a series of lamps, it is recommended to use the maximum voltage value stated in the parameter table of the series of lamps.
The electrostatic voltmeter shown in Figure 1 can be replaced by a storage oscilloscope. The oscilloscope should be used in the circuit together with a high voltage probe with the following characteristics: input resistance 100Ms
input capacitance ≤15 pF;
cut-off frequency ≥1MHz.
If there is any doubt, the value measured by the electrostatic voltmeter shall prevail. 6.5 Starters incorporating electronic switching components For test descriptions and test methods, see Appendix B. It can be expected that a starter complying with the requirements of this clause will cause the lamp to start successfully when used with a lamp complying with the requirements of IEC 60081 or IEC 69901 in an environment with a temperature of 10 °C to 35 °C and a voltage of 92 % to 106 % of the rated voltage. Compliance with the requirements of 6.5.1, 6.5.2 and 5.5.3 is verified as follows: a) Each cathode of the lamp is replaced by a resistor having a value corresponding to that described in the parameters of the corresponding lamp in IEC 60081 or IEC 60901:
h) The supply voltage is 2 % to 96 % of the rated voltage of the ballast. 6.5.1 Starting speed
For a starter incorporating a circuit breaker, it shall start at least once during the test period of 30 s. For a continuously operating starter, it shall start at least twice during the test period of 30 s. 6.5.2 The cathode preheating
flapper should be able to make the minimum total effective heating current meet the time/current limit requirements specified in the parameter table of the phase-separated lamp (see Appendix B. Figure B.2). The absolute minimum preheating time
should be at least 0.4, except when otherwise specified in the parameter table of the relevant lamp. The maximum effective heating current at - time should not exceed the limit value specified in the parameter table of the relevant lamp. 6.5.3 Open-circuit voltage During the preheating period, the open-circuit voltage between the replacement resistors of any group of lamps shall not exceed the maximum value specified in the parameter table of the corresponding lamp. After the preheating period, this voltage shall not be less than the minimum starting voltage of the lamp specified in the parameter table of the relevant lamp. If the current through the replacement resistor referred to in 6.5.2 is disconnected before the lamp reaches the specified minimum starting voltage, the voltage shall rise to the minimum starting voltage (see Figure B, 3.1) in less than 0.1 s. If the time required for the voltage rise exceeds 0.13, the current through the replacement resistor shall not fall below the absolute minimum value specified in the parameter table of the relevant lamp (see Figure 3.3.2). 6.6 Non-repetitive starting level This requirement applies to starters with mechanical switching elements or electrical switching elements. The following tests shall be conducted using the circuit and ballast specified in 6.3, and the lamp shall be connected according to normal use requirements. 6.6.1 For a voltage-controlled starter
, a power supply voltage equal to the rated voltage of the ballast shall be applied to the circuit, and the lamp shall be able to start and operate normally. After the lamp has been operating for 30 seconds, the power supply voltage shall be continuously reduced to 85% of the rated voltage within 5 seconds and maintained for 90 seconds. After this, the lamp shall remain lit without being disturbed by the starter. 6.6.2 For a current-controlled starter
, a power supply voltage equal to the rated voltage of the ballast shall be applied to the circuit, and the lamp shall be able to start and operate normally. After the lamp has been operating for 30 seconds, the lamp current shall be continuously reduced to 80% of the nominal operating current of the lamp specified in the parameter table of the relevant lamp in IEC60081 within 5 seconds and maintained for 90 seconds. At this time, the lamp shall remain lit without being disturbed by the actuator. 6.7 Maximum preheating current (lamp fails to start) If only the intact lamp fails to start, in order to prevent the lamp cathode from being heated by excessive preheating current, the starter with mechanical switching parts and electronic switching parts shall be subjected to the following test. The starter is connected as required for normal operation and a supply voltage of 106% of the rated voltage of the ballast is applied to the line. Within 60 minutes after the switch is closed, the total effective heating current flowing through the cathode shall not exceed 115% of the nominal operating current of the lamp in the parameter table of the relevant lamp in IEC 60081 and IEC 60901. A deactivated lamp or two independent lamp terminals with real cathodes shall be used for this test. 6.8 Interrupting function of starter
If the manufacturer or seller states that the starter is equipped with an auxiliary circuit breaker that can disconnect the starter from the line, the following test shall be carried out. The supply voltage is equal to the rated voltage of the ballast and a deactivated lamp or two independent lamp terminals with real cathodes are used instead of the lamp. The supply voltage is applied to the line and the auxiliary circuit breaker shall operate within 5min. 7 Endurance test
7.1 Number of test samples
The test number consists of starters that have passed the tests described in clause 6. 7.2 Test conditions
During the test, the starter is connected as required for normal use and is operated with a lamp of the maximum rated power for which it is applicable and with an applicable ballast under the conditions of maximum enclosure limits. The ballast shall comply with the requirements of Annex A. The test voltage shall be equal to the rated voltage of the ballast.
If a lamp fails during the test, it shall be replaced immediately. 7.3 For starters that can be replaced without tools, the test time shall be 60Q0 cycles, each cycle lasting 4 minutes. Within each cycle, the voltage shall be applied to the line for 50 5=30 5.
The test shall be stopped for 30 minutes during each 12 h test period. 7.4 Non-replaceable starter
The test time shall be 25000 cycles, each cycle is 4min, and within each cycle, the voltage shall be applied to the circuit for 905±305.
GB/T19655---2005/1EC60927.1996 During each 12h test period, the test shall be stopped for 30min. 7.5 Qualification conditions
After this test is completed, the test described in 46.7 shall be repeated. If one starter fails, the test shall be repeated with another starter, and all shall meet the requirements. 8 Deactivation lamp test
8.1 Number of test samples
The number of test samples consists of only the starters that have passed the test described in Chapter 6 but have not yet been tested in Chapter 7. 8.2 Test conditions
When conducting this test, the starter shall be connected according to normal use requirements and kept at the maximum shell temperature. When operating with a lamp with an appropriate de-energized cathode (except in the case described in 8.5), the lamp with the maximum rated power of the starter used in the test shall be an appropriate ballast.
The ballast shall comply with the requirements of Appendix A.
The test voltage shall be equal to the rated voltage of the ballast. It is permitted to use an alternative resistor to replace each cathode of the lamp. The value of each resistor shall be equal to the target value specified in the parameter table of the corresponding lamp in IFC60081.
8.3 Starters with mechanical switching components but without circuit breakers shall be subjected to the test described in 6.4.? after the starter has been used for 3 h continuously. After the starter is operated for 5 h, the switch contacts should not weld and the container should not malfunction. 8.4 Starters with electronic switch components but no circuit breakers For starters that can be replaced without using a circuit breaker, they should be subjected to the tests described in 5.4-5.7 after continuous operation for 12 h. For starters that should not be replaced, they should be subjected to the tests described in 6.4-6.7 after continuous operation for 12 h. 8.5 Starters with mechanical switch components and thermal circuit breakers The starter should be tested at a minimum temperature of 20% and a maximum temperature of 80% with a cycle of 5 min closing and 10 min opening, unless the manufacturer specifies a different temperature range. The above temperatures are only applied to the starter. The lamp and ballast are still kept at room temperature. At 5 During the "min\close" period, the circuit breaker should be in working condition and the circuit breaker cannot be automatically reset. For starters with manual reset circuit breakers, they should be subjected to 20 tests under the above minimum temperature conditions and 20 tests under the above maximum temperature conditions.
For starters with automatic reset circuit breakers (for example, the circuit breaker is automatically reset by driving the power switch), they should be subjected to 500 tests under the above minimum temperature conditions and 530 tests under the above maximum temperature conditions. After this test, the starter is subjected to the tests described in 6.46.7. 8.6 Starters with electronic switching components and electronic circuit breakers The starter should be subjected to a 4min cycle test. After the cycle Flash, the test voltage should be applied continuously for 9 ± 30S. On the one hand, the test period can be determined by the inspection agency and the applicable commercial mutual agreement: the total periodic test time should be at least 500 complete cycles, and the circuit breaker should work during each "closing" period. At the end of the periodic test, the starter should be subjected to the tests described in 6.4~6.7. 8.7 Qualification conditions
If one starter fails to meet the corresponding test requirements described in 9.3-8.6, three starters should be tested again, and all of them should pass.
9 Specifications
GB/T19655-2005/IEC60927:1996 Part 3 Performance requirements for triggers||tt ||This standard is the performance requirements for ignitors for industrial pressure steel lamps, high-pressure steel lamps and metal halide lamps. This standard shall be used together with the corresponding standards for these lamps and their ballasts (see GB19510.10, IEC60192.IEC60662, GB/T15042 and IEC61167) 10 Starting test
10.1 The test shall be carried out on two ignitors that have not been subjected to any test. 10.2 Test conditions
In this test, the ignitor shall be connected in accordance with normal use requirements. The ignitor shall be tested together with the lamp and ballast to which it applies. For ignitors suitable for several types of lamps or for lamps of several powers, each type of lamp must be tested. The ballast used shall comply with the requirements of the relevant national or international standards and shall be appropriate to the type or watt of the lamp to be started by the ignitor.
10.3 Compliance conditions
When both ignitors comply with the test requirements specified in 10.4 to 10.7, the ignitor is deemed to comply with the requirements of this clause. If one ignitor fails in any of the tests, the other two ignitors shall be tested and both shall comply with the test requirements.
10.4 Switching speed
This test is carried out without connecting the lamp.
A voltage of 0.92 times the rated supply voltage is applied to the circuit. At least one starting action shall occur during a period of 30 s. 10.5 Pulse voltage
Connect the ignitor as required in 10.2, but without connecting the lamp, and measure the pulse voltage using the circuit shown in Figure 1. The pulse voltage of the lamp (generated by the igniter or igniter/ballast combination) shall not be less than the value specified by the manufacturer within the rated temperature range (if so specified) and under the conditions of a maximum load capacitance of 100 pF (unless otherwise specified by the manufacturer) and an applied voltage of 0.92 times the rated source voltage. Method: The electrostatic voltmeter shown in Figure 1 may be replaced by a storage oscilloscope. The oscilloscope shall be used in the circuit with a commercial voltage probe having the following characteristics: Input resistance: ≥ 100 Mn; Input capacitance: 15 pF; Cut-off frequency: 21 MH2. In case of doubt, the value measured by the electrostatic voltmeter shall be obtained. 10.6 Repetition rate, pulse position, width and amplitude of the starting pulse of the step trigger This requirement is still under study. An oscilloscope and a high voltage probe shall be used when conducting this test. This combination should have the following characteristics: Input resistance: 2100 M0;
Input capacitance: 5 pF wwW.bzxz.Net
Cut-off frequency: 250 M Iz
10.7 Triggering energy of non-step trigger
The triggering energy of non-synchronous trigger should be measured by the circuit shown in Figure 2. The required energy value is still under study. For the trigger for low-pressure sodium lamps, the test circuit and parameters are still under study. GB/T19655--2005/IEC60927:199611 Non-repetitive working level
After the lamp L is started, the trigger should no longer be 1.Two ignitors meeting the test requirements of the [Chapter] shall also be subjected to the following test. The lamp matched to the ignitor is connected as required for normal use and is started and operated until it reaches a stable state. For ignitors whose function depends on the voltage of the lamp, the supply voltage is continuously reduced to 85% of the rated supply voltage without interrupting the supply line.
After min, the current flowing through the ignitor circuit shall not exceed the rated current of the lamp (to protect the ballast) and there shall be no disturbance of the lamp's function.
For ignitors whose function depends on the current of the lamp, the supply current is reduced to 80% of the rated current of the lamp without interrupting the supply line.
After 1 min, the current flowing through the ignitor circuit shall exceed the rated current of the lamp (to protect the ballast) and there shall be no disturbance of the lamp's function.
If, according to the manufacturer's declaration, the ignitor can perform other functions necessary for the normal operation of the lamp in addition to the starting function, this test need not be carried out.
However, if a defective lamp is present, the current through the ignitor circuit shall not exceed the rated current of the lamp after 1 minute. 12 Endurance test
12.1 Number of test samples
The number of test samples shall consist of two ignitors which have passed the relevant tests described in Chapters 10 and 11 and two additional ignitors required for the test specified in the third paragraph of 12.2. 12.2 Test conditions
In this test, the two ignitors are operated in series as required for normal use. Each ignitor is connected to a suitable ballast. The test voltage shall be 1.06 times the rated supply voltage of the ballast. The ignitors shall be operated without lamps at the maximum case temperature as required by their markings. In this case, the live connecting leads on one ignitor are loaded with the maximum permissible load capacitance, while the connecting leads on the other ignitor are unloaded. The ballast used for the life test shall comply with the requirements specified in Appendix A. Ballasts that fail during the endurance test shall be replaced.
For ignitors that can be used in series with discharge lamps, if such lamps, when connected according to their technical requirements, will cause excessive heating of the ballast/ignitor, such ignitors shall be subjected to additional tests at a maximum case temperature of (t-X) and using the rectifier test circuit described in G137000.1.
12.3 Ignitors without replaceable switching components are subjected to continuous operation for 30 days (720 h) and then subjected to the tests specified in 10.4 to 10.7 and Chapter 11. 12.4 Ignitors with switch components that can be replaced without tools are subjected to continuous operation for 30 days (720 h) and then subjected to the tests specified in 10.4 to 10.7 and Chapter 11. Switch components that fail during this test may be replaced six times. If seven switch components fail, the test is considered to have failed. After the ignitor has completed these tests and a new switch component is installed, it is subjected to 10.4 to 10.7 and Chapter 11 again! 12.5 Triggers with auxiliary circuit breakers Make the trigger work without lamp at rated supply voltage, once at a minimum temperature of -20°C and once at a maximum temperature of +80°C, except when the manufacturer specifies different temperature ranges: the breaker shall start to work within 20 min. For triggers with manual reset circuit breakers, make them accept 20 tests at the minimum temperature mentioned above and then accept 20 tests at the maximum temperature mentioned above.
GB/T 19655--2005/IEC 60927:1996 For triggers with automatic reset circuit breakers (for example, the circuit breaker is reset by driving the power switch), they should be subjected to 500 tests at the minimum temperature mentioned above and then 500 tests at the maximum temperature mentioned above. After the triggers have completed these tests, they should be subjected to the tests specified in 10.4~10.7 and Chapter 11. 12.6 Qualification conditions
If all triggers can still meet the test requirements specified in 10.4~10.7 and Chapter 11 after successfully passing the durability test described in Chapter 12, the trigger of this type meets the requirements of this chapter. If one trigger fails during the test, the other two triggers shall be tested again, and all tests shall be qualified. Before and after the durability test, the pulse voltage shall be measured in accordance with the requirements of 10.5. The change in the measured value shall not exceed 310%.
a) Line
b) Components
1. High-voltage diode
Reverse breakdown version Uu25kV
Rated current 1AVM2! .5mA
Periodic peak current IFxM0.1A
Anode/cathode capacitance C2 pF
Note: For example, the appropriate component is the GY5S1 wall high-voltage rectifier used in color TVs: 2. High-voltage capacitor
C=500 pF
Rated voltage I6.3kV
Dielectric loss tangent (at 10kHz)tang20×10-3. High-voltage measuring instrument
Electrostatic voltmeter (0~6)kV
Capacitance at full deflection angle
Breakdown voltage>10 kV
Accuracy level 1 or high level
4. Discharge resistor 1 MP
3. Short-circuit device for electricity
6. High-voltage lead
7. Neutral line
Note: The leakage resistance between A and between C and D should be no less than 10-. Figure 1 Measurement circuit of pulse voltage of starting device GB/T 19655--2005/IEC 60927:1996a)
b) Components
1. DC blocking capacitor
Capacitance 0.F
Capacitance tolerance
Rated voltage: 2:1000V
Dielectric loss angle tangent value (at 10kHz)
tan=20×10
Pulse load capacity 100V/μs
2. Applicable to high-frequency current measuring instrument
Current range 0~~150 mA
Indication error at full deflection angle
Internal resistance R of measuring instrument, ≤100
3. High-voltage lead
4. Neutral line
Leave 2 non-step-back starting device to avoid the pulse energy load pathAfter the initiator has completed these tests and has been fitted with new initiators, it shall be subjected to the tests specified in 10.4 to 10.7 and Chapter 11.
12.5 Initiators with auxiliary circuit breakers
The initiator shall be operated without lamps at rated supply voltage, once at a minimum temperature of -20°C and once at a maximum temperature of +80°C, unless the manufacturer specifies a different temperature range: the breaker shall start to operate within 20 min. For initiators with manual reset circuit breakers, subject them to the test at the minimum temperature mentioned above for 20 times and then to the test at the maximum temperature mentioned above for 20 times.
GB/T 19655--2005/IEC 60927:1996 For triggers with automatic reset circuit breakers (for example, the circuit breaker is reset by driving the power switch), they should be subjected to 500 tests at the minimum temperature mentioned above and then 500 tests at the maximum temperature mentioned above. After the triggers have completed these tests, they should be subjected to the tests specified in 10.4~10.7 and Chapter 11. 12.6 Qualification conditions
If all triggers can still meet the test requirements specified in 10.4~10.7 and Chapter 11 after successfully passing the durability test described in Chapter 12, the trigger of this type meets the requirements of this chapter. If one trigger fails during the test, the other two triggers shall be tested again, and all tests shall be qualified. Before and after the durability test, the pulse voltage shall be measured in accordance with the requirements of 10.5. The change in the measured value shall not exceed 310%.
a) Line
b) Components
1. High-voltage diode
Reverse breakdown version Uu25kV
Rated current 1AVM2! .5mA
Periodic peak current IFxM0.1A
Anode/cathode capacitance C2 pF
Note: For example, the appropriate component is the GY5S1 wall high-voltage rectifier used in color TVs: 2. High-voltage capacitor
C=500 pF
Rated voltage I6.3kV
Dielectric loss tangent (at 10kHz)tang20×10-3. High-voltage measuring instrument
Electrostatic voltmeter (0~6)kV
Capacitance at full deflection angle
Breakdown voltage>10 kV
Accuracy level 1 or high level
4. Discharge resistor 1 MP
3. Short-circuit device for electricity
6. High-voltage lead
7. Neutral line
Note: The leakage resistance between A and between C and D should be no less than 10-. Figure 1 Measurement circuit of pulse voltage of starting device GB/T 19655--2005/IEC 60927:1996a)
b) Components
1. DC blocking capacitor
Capacitance 0.F
Capacitance tolerance
Rated voltage: 2:1000V
Dielectric loss angle tangent value (at 10kHz)
tan=20×10
Pulse load capacity 100V/μs
2. Applicable to high-frequency current measuring instrument
Current range 0~~150 mA
Indication error at full deflection angle
Internal resistance R of measuring instrument, ≤100
3. High-voltage lead
4. Neutral line
Leave 2 non-step-back starting device to avoid the pulse energy load pathAfter the initiator has completed these tests and has been fitted with new initiators, it shall be subjected to the tests specified in 10.4 to 10.7 and Chapter 11.
12.5 Initiators with auxiliary circuit breakers
The initiator shall be operated without lamps at rated supply voltage, once at a minimum temperature of -20°C and once at a maximum temperature of +80°C, unless the manufacturer specifies a different temperature range: the breaker shall start to operate within 20 min. For initiators with manual reset circuit breakers, subject them to the test at the minimum temperature mentioned above for 20 times and then to the test at the maximum temperature mentioned above for 20 times.
GB/T 19655--2005/IEC 60927:1996 For triggers with automatic reset circuit breakers (for example, the circuit breaker is reset by driving the power switch), they should be subjected to 500 tests at the minimum temperature mentioned above and then 500 tests at the maximum temperature mentioned above. After the triggers have completed these tests, they should be subjected to the tests specified in 10.4~10.7 and Chapter 11. 12.6 Qualification conditions
If all triggers can still meet the test requirements specified in 10.4~10.7 and Chapter 11 after successfully passing the durability test described in Chapter 12, the trigger of this type meets the requirements of this chapter. If one trigger fails during the test, the other two triggers shall be tested again, and all tests shall be qualified. Before and after the durability test, the pulse voltage shall be measured in accordance with the requirements of 10.5. The change in the measured value shall not exceed 310%.
a) Line
b) Components
1. High-voltage diode
Reverse breakdown version Uu25kV
Rated current 1AVM2! .5mA
Periodic peak current IFxM0.1A
Anode/cathode capacitance C2 pF
Note: For example, the appropriate component is the GY5S1 wall high-voltage rectifier used in color TVs: 2. High-voltage capacitor
C=500 pF
Rated voltage I6.3kV
Dielectric loss tangent (at 10kHz)tang20×10-3. High-voltage measuring instrument
Electrostatic voltmeter (0~6)kV
Capacitance at full deflection angle
Breakdown voltage>10 kV
Accuracy level 1 or high level
4. Discharge resistor 1 MP
3. Short-circuit device for electricity
6. High-voltage lead
7. Neutral line
Note: The leakage resistance between A and between C and D should be no less than 10-. Figure 1 Measurement circuit of pulse voltage of starting device GB/T 19655--2005/IEC 60927:1996a)
b) Components
1. DC blocking capacitor
Capacitance 0.F
Capacitance tolerance
Rated voltage: 2:1000V
Dielectric loss angle tangent value (at 10kHz)
tan=20×10
Pulse load capacity 100V/μs
2. Applicable to high-frequency current measuring instrument
Current range 0~~150 mA
Indication error at full deflection angle
Internal resistance R of measuring instrument, ≤100
3. High-voltage lead
4. Neutral line
Leave 2 non-step-back starting device to avoid the pulse energy load path
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