NB/T 10304-2019 English PDFUS$299.00 · In stock
Delivery: <= 3 days. True-PDF full-copy in English will be manually translated and delivered via email. NB/T 10304-2019: (Bimetallic sheet thermal protector for tubular fluorescent lamp ballast) Status: Valid
Basic dataStandard ID: NB/T 10304-2019 (NB/T10304-2019)Description (Translated English): (Bimetallic sheet thermal protector for tubular fluorescent lamp ballast) Sector / Industry: Energy Industry Standard (Recommended) Classification of Chinese Standard: K32 Classification of International Standard: 97.120 Word Count Estimation: 13,144 Date of Issue: 2019-11-04 Date of Implementation: 2020-05-01 Issuing agency(ies): National Energy Administration NB/T 10304-2019: (Bimetallic sheet thermal protector for tubular fluorescent lamp ballast)---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.Bimetal thermal protectors for ballasts used in tubular fluorescent lamps ICS 97.120 K32 NB Energy Industry Standards of the People's Republic of China Bimetallic sheet type thermal protector for tubular fluorescent lamp ballast 2019 – 11 – 04 released 2020 – 05 – 01 implementation Issued by National Energy Administration Table of contentsForeword...II 1 Scope...1 2 Normative references...1 3 Terms and definitions...1 4 Classification and naming...2 5 Technical requirements...2 6 Test method...4 7 Inspection rules...7 8 Marking, packaging, transportation, storage...9 Table 1 In the contact thermal disconnection state, the electric strength between different polarities...3 Table 2 Electric strength between current-carrying parts and insulating parts...4 Table 3 Type inspection items...7 Table 4 Qualified quality level (AQL value) of sampling test...8ForewordThis standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard was proposed by China Electrical Equipment Industry Association. This standard is under the jurisdiction of the National Standardization Technical Committee for Household Automatic Controllers (SAC/TC 212). Drafting organizations of this standard. Yangzhou Baozhu Electric Appliance Co., Ltd., Baoying Electric Appliance Factory, Jiangsu Yitong Control System Co., Ltd., Hefei Midea Refrigerator Co., Ltd., China Electrical Equipment Research Institute Co., Ltd., Jiangsu Changsheng Electric Co., Ltd., Xiamen Rituo Electric Technology Co., Ltd., Xi'an Yuntuo Electric Co., Ltd., Xi'an Yuanzheng Intelligent Software Co., Ltd., Foshan Tongbao Precision Alloy Co., Ltd., Foshan Reanda Electric Appliance Co., Ltd., Ningbo Institute of Information Technology Application, Chinese Academy of Sciences, Changzhou Flander Electric Co., Ltd., Jiangyin Zhijun Electric Cable Co., Ltd., Dongguan City, Guangdong Province, Quality and Technical Supervision Standards and Coding Institute, Jinhua Wangyuan Electronic Technology Co., Ltd. The main drafters of this standard. Yang Fenglei, Xu Shiping, Zhu Shengliang, Chen Lin, Cao Shiliang, Kong Ruixun, Cheng Mingsheng, Liu Jinhua, Zhang Wenjie, Nan Zheng, Huo Zhiwen, Guo Qiqiang, Pan Yijie, Du Li, Ma Zhijun, Yang Xibo, Zhang Wei. Bimetallic sheet type thermal protector for tubular fluorescent lamp ballast1 ScopeThis standard specifies the specifications of the bimetal thermal protector (hereinafter referred to as the thermal protector) for tubular fluorescent lamp ballasts for household and similar purposes. Naming, technical requirements, test methods, inspection rules, signs, packaging, transportation, storage, etc. This standard is applicable to bimetal thermal protectors for tubular fluorescent lamp ballasts with a frequency of 50 Hz or 60 Hz and a rated voltage of 600 V and below.2 Normative referencesThe following documents are indispensable for the application of this document. For dated reference documents, only the dated version applies to this document. For undated references, the latest version (including all amendments) applies to this document. GB/T 191-2008 Graphical signs for packaging, storage and transportation GB/T 2423.3-2016 Environmental Test Part 2.Test Method Test Cab. Constant Damp Heat Test GB/T 2828.1-2012 Sampling inspection procedures by attributes Part 1.Batch inspection sampling plan retrieved by acceptance quality limit (AQL) GB/T 14536.1-2008 Household and similar electric automatic controllers Part 1.General requirements3 Terms and definitionsThe following terms and definitions apply to this document. 3.1 Ballast A device composed of inductance, capacitance or resistance, single or combined, is connected between the power supply and one or more discharge lamps, which is mainly restricted The current acts and produces instantaneous high voltage. 3.2 Thermal ballast protector Installed in or integrated with the ballast of tubular fluorescent lamps, designed to prevent the ballast from overheating under any conditions. Position type automatic controller. Note. The thermal protector carries the current of the ballast and is sensitive to the temperature and current of the ballast. 3.3 Rated current The current specified by the manufacturer for the thermal protector. 3.4 Open temperature The thermal protector does not carry any current, or only the signal current passes through, and the cut-off temperature value measured under a certain heating rate condition. 3.5 Reset temperature The closing temperature value of the thermal protector measured under a certain cooling rate. 3.6 Internal resistance The resistance generated by mechanical contact and current-carrying parts on the current-carrying circuit in the thermal protector. 3.7 Current-temperature characteristics In the set ambient temperature, the thermal protector does not disconnect the maximum continuous current that the circuit can carry.4 NamingThe product model and its meaning are as follows. TB □-□□□ Temperature specification or code Design serial number (indicated by Arabic numerals) Thermal protector (manufacturer design code) Example. TB05-100 means. manufacturer design code TB, design serial number 05, temperature specification 100℃. Note. The model can also be named by the thermal protector manufacturer as needed.5 Technical requirements5.1 General requirements 5.1.1 Appearance and size requirements. the installation size and product mark are clear, and the content meets the requirements of the relevant documents of the manufacturer. 5.1.2 The metal parts shall not have cracks and peeling off of the coating, and the insulating materials shall not have bubbles, cracks, no obvious marks and damages, etc. Elephant. 5.1.3 Where there are regulations on the installation method or the performance of the thermal protector is affected by the installation conditions, the installation conditions or Agreement with the user to determine the installation conditions. 5.1.4 When there is a requirement for leak prevention during the dipping process, it should be able to ensure its good leakproof ability, and if necessary, the verification method should be agreed with the user and compared Such as dipping paint together with the ballast. 5.1.5 The structure of the lead-out components (wires, terminals, welding pieces, etc.) should ensure good electrical contact and current-carrying capacity, and be able to withstand corresponding The requirements for mechanical stress are determined by agreement with the user. 5.1.6 The insulating material of the thermal protector shall be able to withstand the following requirements for heat resistance, flame resistance and tracking resistance. a) Heat resistance. the ball pressure test of the maximum working environment temperature of the thermal protector Tmax+40℃; Note. Ceramic materials are not subject to this test. b) Flame resistance. test temperature test at the top of the glow wire at 650℃±10℃, duration 30s±1s; c) Tracking resistance. PTI is not less than 175 V. 5.2 Performance requirements 5.2.1 Operating temperature The operating temperature of the thermal protector is between 60°C and 150°C every 5°C, and the allowable deviation of its operating temperature is ±5°C. 5.2.2 Reset temperature The on-off temperature difference of the thermal protector should be within the range declared by the manufacturer, preferably (5-25)K, (10-40)K. Note. Other operating temperature, reset temperature and deviation can be set according to user needs. 5.2.3 Current-temperature characteristics The manufacturer of the thermal protector should reflect the current-temperature characteristics of the thermal protector in the form of a chart or curve. The user agreement is determined. 5.2.4 Internal resistance In general, the internal resistance between the two lead parts of the thermal protector product should not be greater than 50 mΩ. Note. Other internal resistance values can be set according to product structure characteristics and customers. 5.2.5 Insulation resistance The insulation resistance of the thermal protector should meet the following requirements. a) The insulation resistance between the two lead parts of the thermal protector should not be less than 2 MΩ when the contacts are thermally disconnected; b) The insulation resistance between the lead-out parts of the thermal protector and the surface of the insulation layer of the enclosure should not be less than 5 MΩ. 5.2.6 Electric strength The insulation or disconnection of the thermal protector should be able to withstand the basic sine wave with a frequency of 50 Hz or 60 Hz, according to the test voltages in Table 1 and Table 2 (with Effective value) There is no flashover and breakdown in 1min, and the leakage current trip value setting during the test shall not exceed 10 mA. 5.2.7 Overload Under the conditions of rated voltage and power factor of 0.4 to 0.5, the thermal protector is switched on and off for 1,000 cycles with 4 times the rated current. After the test, The operating temperature change does not exceed ±5K of the initial value. 5.2.8 Durability Under the conditions of rated voltage and power factor of 0.4~0.5, the thermal protector is switched on and off for 10 000 cycles with 2 times the rated current. After the test Should meet. a) The operating temperature change does not exceed ±5K of the initial value; b) The electrical strength meets the requirements of 5.2.6; c) The contacts must not malfunction; d) The contact does not weld. 5.2.9 Limited short circuit performance The thermal protector shall withstand the limited short-circuit performance test with an expected current of.200 A without causing a fire hazard, and allow the thermal protector contact to melt Welded or broken. 5.2.10 High temperature resistance The thermal protector should be able to withstand the high temperature test requirements of 150℃ for 96 hours, and the change in the operating temperature of the thermal protector shall not exceed the initial ±5K of the initial value. 5.2.11 Resistance to temperature changes The thermal protector is cycled for 10 cycles at the severe level according to the temperature change requirement of 60℃ for 4 hours and low temperature of -40℃ for 2 hours, after the test The change in operating temperature does not exceed ±5K of the initial value. 5.2.12 Vibration resistance The thermal protector should be able to withstand a constant frequency test with a vibration frequency of 50 Hz, an amplitude of 0.35 mm, and a duration of 30 minutes. After the test, its operating temperature changes Does not exceed the initial value ±5K. 5.2.13 Impact resistance The thermal protector should be able to withstand the peak acceleration of 50 gn ± 7.5 gn, and the pulse duration of the back peak sawtooth half sine wave with a pulse duration of 11 ms ± 1 ms. Speed impact test, after the test, the change in operating temperature does not exceed the initial value ± 5K. 5.2.14 Humidity and heat resistance The thermal protector should be able to withstand the severity level according to the temperature of 25℃±2℃ in GB/T 2423.3-2016, and the relative humidity of 91%~95%. During the 7-d damp and heat resistance test, after the test, in the contact thermally disconnected state, the insulation resistance between the lead part and the surface of the housing insulation layer should not be less than 2 M Ω, and can withstand 5.2.6 electric strength performance test, the test voltage is reduced to 80% of the original.6 Test method6.1 Test conditions Unless otherwise specified, the test should be carried out under the following conditions. a) The ambient temperature is 10℃~30℃, and the surrounding air temperature should not exceed 10℃ during the test; b) The accuracy of test instruments and meters. the factory inspection is not less than 1.0, and the type test is not less than 0.5; c) Humidity requirements. relative humidity 45%~75%; d) Accuracy of temperature measuring instrument. not lower than 0.5℃ in factory inspection and not lower than 0.2℃ in type test. 6.2 General inspection 6.2.1 Appearance and size inspection Use general or special measuring tools to check the size and visually check whether the appearance meets the requirements of 5.1.1 and 5.1.2. 6.2.2 Heat resistance, flame resistance and tracking resistance test of insulating parts The heat resistance, flame resistance and tracking resistance test of insulating parts shall be tested in accordance with 5.1.6 and Chapter 21 of GB/T 14536.1-2008. Note. When necessary, use plastic samples to conduct heat resistance, flame resistance and tracking resistance tests of insulating parts. 6.3 Performance test 6.3.1 Action temperature test Place the thermal protector in a strong convection dry box for testing. The measurement method adopts thermocouple or thermometer. The thermocouple or thermometer should be placed on the thermal protector sample or as close as possible to the thermal protector. Increase the air temperature in the test, and the temperature change rate when the air temperature is about 10K lower than the lower limit temperature of the operating temperature does not exceed 1 K/min Until the thermal protector operates, check whether the operating temperature meets the requirements of 5.2.1. Use indicator lights or other methods to indicate the on-off status, and allow the current through the thermal protector to not exceed 0.01 A. 6.3.2 Reset temperature test For the automatic reset thermal protector, use the method specified in 6.3.1 to carry out the reset temperature test, reduce the air temperature, and When the upper limit temperature of the bit temperature is 10K, the temperature change rate does not exceed 1K/min. When the thermal protector is reset, check whether the reset temperature meets the regulations of 5.2.2. set. 6.3.3 Current-temperature characteristic test Place the thermal protector in a relatively still air with a temperature fluctuation of ±2°C for testing. In the test, keep the ambient temperature at any temperature point lower than the cut-off temperature, and pass the non-operation of the thermal protector at this temperature Current for 1h, check whether the result meets the requirements of 5.2.3. 6.3.4 Internal resistance test Use a resistance measuring instrument to measure the resistance between the two lead parts of the thermal protector, and check whether the result meets the requirements of 5.2.4. 6.3.5 Insulation resistance test Use a 500 V insulation resistance tester to test the insulation resistance of the thermal protector according to the following method, and check whether the result meets the requirements of 5.2.5. In the insulation resistance performance test between the contacts, the thermal protector should be placed in an air medium that is approximately 10K higher than the upper limit temperature of the test product's disconnection temperature In the case of contact disconnection. The insulation resistance performance test between the lead-out part of the thermal protector and the insulating surface layer of the enclosure is carried out at room temperature. 6.3.6 Electric strength test Electric strength performance test, the test power capacity is not less than 0.5 kVA, the frequency is 50 Hz or 60 Hz basic sine wave, its maximum leakage The leakage current trip value is set to 10 mA. Start from half of the test voltage at the position described in 5.2.6, gradually increase to the specified value, and continue for 1 min to observe whether there is breakdown or flashover. Elephant. Note 1.The electrical strength performance test between the two contacts is to place the thermal protector in an air medium that is approximately 10 K higher than the upper limit temperature of the disconnect temperature of the test product. The head is disconnected. Note 2.The electrical strength performance test between the current-carrying part and the outer surface of the insulating part is carried out at room temperature. Note 3.The factory inspection allows to increase the test voltage by 20% and shorten the pressure time to 1 s. 6.3.7 Overload test Connect the thermal protector product to a circuit with a rated voltage and a power factor of 0.4 to 0.5, pass 4 times the rated current, and the allowable current The difference is ±5%, the operating frequency (on-off-on time) is 5 cycles/min to 7 cycles/min, and the cycle rate depends on the surrounding medium. Temperature, after this cycle for 1,000 cycles, check whether the result meets the requirements of 5.2.7. 6.3.8 Durability test Connect the thermal protector product to a circuit with a rated voltage and a power factor of 0.4 to 0.5, pass 2 times the rated current, and the current tolerance In a circuit of ±5%, the operating frequency (on-off-on time) is 5 cycles/min to 7 cycles/min, and the cycle rate depends on the control surroundings If the temperature of the medium is circulated for 10 000 cycles, check whether the result meets the requirements of 5.2.8. 6.3.9 Limited short-circuit performance test Connect the thermal protector in series with the 20 A fast fuse (the fuse must not be disconnected within 12 s when the 40 A current is applied), and wrap the heat with absorbent cotton wool After the shell of the protector is connected to a circuit with an expected current of.200 A and a power factor of 0.9 to 1.0, the thermal protector is allowed to repeat during the test Action, the test should be carried out until the thermal protector permanently disconnects the circuit or the fuse is blown, and check whether the result meets the requirements of 5.2.9. 6.3.10 High temperature resistance performance test Put the thermal protector into the 150℃±3℃ test box and keep it for 96 hours, then take it out and keep it at room temperature for 1 hour and then perform the action temperature test. Check whether the result meets the requirements of 5.2.10. 6.3.11 Resistance to temperature change performance test Place the thermal protector in an environment of -40℃±3℃, keep it for 2 hours, take it out and keep it in the air for 30 minutes, then put it at 60℃±3℃ In the drying box, keep it for 4 hours and then take it out and keep it at ambient temperature for 30 minutes. After 10 cycles of this cycle, perform the action temperature test to check the result. Whether the results meet the requirements of 5.2.11. 6.3.12 Vibration resistance test Fix the thermal protector on the test bench, in each direction in X, Y, Z 3 mutually perpendicular directions according to the requirements of 5.2.12 Carry out a 10 min vibration test to check whether the result meets the requirements of 5.2.12. 6.3.13 Impact resistance test Fix the thermal protector on the test bench, in each direction in X, Y, Z directions perpendicular to each other according to 5.2.13 Apply 3 consecutive shocks for a total of 18 shock tests to check whether the results meet the requirements of 5.2.13. 6.3.14 Humidity and heat resistance test This test adopts the Cab test method. For the requirements of the test box, see GB/T 2423.3-2016 Part 2 Test Method, according to 5.2.14 Perform the test according to the specified severity level and the 7th requirement of GB/T 2423.3-2006, and check whether the result meets the requirements of 5.2.14. Regarding the test of the sample, the insulation resistance and electric strength test of the l......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of NB/T 10304-2019_English be delivered?Answer: Upon your order, we will start to translate NB/T 10304-2019_English as soon as possible, and keep you informed of the progress. The lead time is typically 1 ~ 3 working days. The lengthier the document the longer the lead time.Question 2: Can I share the purchased PDF of NB/T 10304-2019_English with my colleagues?Answer: Yes. The purchased PDF of NB/T 10304-2019_English will be deemed to be sold to your employer/organization who actually pays for it, including your colleagues and your employer's intranet.Question 3: Does the price include tax/VAT?Answer: Yes. 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