HOME   Cart(0)   Quotation   About-Us Tax PDFs Standard-List Powered by Google www.ChineseStandard.net Database: 189759 (8 Dec 2024)

SJ/T 11141-2017 PDF in English


SJ/T 11141-2017 (SJ/T11141-2017, SJT 11141-2017, SJT11141-2017)
Standard IDContents [version]USDSTEP2[PDF] delivered inName of Chinese StandardStatus
SJ/T 11141-2017English430 Add to Cart 0-9 seconds. Auto-delivery. Generic specification for LED displays Valid
SJ/T 11141-2012English959 Add to Cart 5 days Generic specification for LED panels Obsolete
SJ/T 11141-2003English479 Add to Cart 4 days General specifications for LED panels Obsolete
SJ/T 11141-1997EnglishRFQ ASK 3 days (Chinese Industry Standard) Obsolete
Standards related to (historical): SJ/T 11141-2017

Preview PDF (Powered by Google. Reload if blank, scroll for next page)

SJ/T 11141-2017: PDF in English (SJT 11141-2017)

SJ/T 11141-2017 SJ ELECTRONICS INDUSTRY STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 31.120 L 47 File No.: Replacing SJ/T 11141-2012 Generic specification for LED displays ISSUED ON: NOVEMBER 07, 2017 IMPLEMENTED ON: JANUARY 01, 2018 Issued by: Ministry of Industry and Information Technology of the People's Republic of China Table of Contents Foreword ... 3  1 Scope ... 5  2 Normative references ... 5  3 Terms, definitions and symbols ... 6  4 Classification ... 9  5 Requirements ... 10  6 Inspection and test methods ... 18  7 Inspection rules ... 24  8 Marks, packaging, transportation, storage ... 29  Generic specification for LED displays 1 Scope This Specification specifies terms and definitions, classification, technical requirements, inspection methods, inspection rules as well as marks, packaging, transportation and storage requirements of LED displays. This Specification is applicable to LED display products. 2 Normative references The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. GB/T 191, Packaging and storage marks GB/T 2423.1-2008, Environmental testing - Part 2: Test methods - Tests A: Cold GB/T 2423.2-2008, Environmental testing - Part 2: Test methods - Tests B: Dry heat GB/T 2423.3-2006, Environmental testing for electric and electronic products - Part 2: Testing method test Cab: Damp heat Steady state GB/T 2828.1-2012, Sampling procedures for inspection by attributea - Part 1: Sampling schemes indexed by acceptance quality limit (AQL) for lot-by-lot inspection GB 4208-2008, Degrees of protection provided by enclosure (IP code) GB 4943.1-2011, Information technology equipment -Safety - Part 1: General requirements GB/T 6388-1986, Transportation package shipping mark GB/T 6587-2012, General specification for electronic measuring instruments GB 9254-2008, Information technology equipment - Radio disturbance characteristics - Limits and methods of measurement GB/T 11463-1989, Reliability test for electronic measuring instruments GB/T 17618-2015, Information technology equipment - Immunity characteristics - Limits and methods of measurement GB 20943-2013, Minimum allowable values of energy efficiency and evaluating values of energy conservation for single voltage external AC-DC and AC-AC power supplies SJ/T 10463-1993, Requirements of packing, marking and storage for electronic measuring instruments SJ/T 11281-2017, Measure methods of light emitting diode (LED) displays CIE 1931, Color space 3 Terms, definitions and symbols For the purposes of this document, the following terms and definitions apply. 3.1 LED displays A device for displaying text, image, video and other information with LED pixels, usually including basic components such as LED panel and display control system; it may also include support system and so on. It may adopt one-piece or split structure. 3.2 LED panel It is spliced by one or several display modules. It may be controlled by the display control system to complete the screen display. 3.3 display control system It is usually composed of a video processor, signal conditioning transmitter, signal receiving distributor and related playback control display software and so on. It may also include various signal sources and matrix switchers. 3.4 support system Supporting equipment for the LED display. It usually includes power supply and distribution system, audio system, temperature regulation system, lightning protection system and security system. 3.5 gray scale The maximum brightness level of any primary color of the LED display from the darkest to the brightest. 3.16 Pixel intensity uniformity; IPU The consistency of the luminous intensity of each pixel in the LED display. 3.17 luminance uniformity of display module; IMU The brightness consistency of each display module, which is called luminance uniformity of module. 3.18 color un-uniformity of display module; CMJ The inconsistency of the chromaticity of each display module, which is called color un-uniformity of module. 3.19 luminance uniformity of display assembly; IGU The brightness consistency between modules, which is called luminance uniformity of assembly. 3.20 color un-uniformity of display assembly; CGJ The inconsistency of chromaticity between modules, which is called color un- uniformity of assembly. 3.21 maximum contrast ratio Under a certain environmental illumination, the ratio of the maximum luminance of the LED display to the background luminance. 3.22 out of control pixel LED pixel whose light-emitting state does not match the display state required by the control. 3.23 refresh frame frequency The number of times of updates per second that the LED display displays. 3.24 refresh ratio The number of times of displayed information per second that the LED display displays. 3.25 critical defect The following provisions are critical defects: 1) Defects that may cause hazards or unsafe conditions to the use and maintenance of the LED display or personnel related to it; The LED displays are divided into planar and non-planar types according to the appearance of panel. 4.6 Pixel pitch According to the pixel pitch, the LED display is divided into common pitch and small pitch. 5 Requirements 5.1 Design and structure 5.1.1 Hardware When designing LED displays, it shall perform designs on safety, electromagnetic compatibility, reliability, maintainability, ease of use, environmental adaptability and energy-saving. If designing serialized products, the design principles of serialization, standardization, modularization and backward compatibility shall be followed, according to relevant standards. 5.1.2 Software The configured software shall be adapted to the hardware resources of the hardware system. In addition to meeting application functions, corresponding maintenance and testing procedures shall also be provided. The software of the same series of products shall follow the design principles of serialization, standardization, modularization, Chinese localization and backward compatibility. The character set encoding and font shall comply with the relevant standards. 5.1.3 Structure 5.1.3.1 Structural design shall follow the requirements of standardization and serialization and meet the characteristics of ergonomics. And it shall have a good heat dissipation structure and heat dissipation measures. 5.1.3.2 The display structure of the LED display can be made of steel, aluminum, plastic and other materials. The structure is safe and robust. 5.1.3.3 The common dot pitches are: 0.7, 0.8, 1.0, 1.2, 1.4, 1.6, 1.8, 1.9, 2.0, 2.4, 2.5, 2.8, 3.0, 4.0, 4.7, 5.0, 6.0, 7.62, 8.0, 10, 12, 14, 16, 18, 20, 22, 25, 28, 31.25, 40, in millimeters (mm). 5.1.4 Packaging materials In packaging design, priority shall be given to materials that meet environmental The test voltage specified in 6.8.5 is applied between the two poles of the power supply of the display assembly constituting the LED display, between the two poles of the power supply and the protective ground. No insulation breakdown shall occur during the test. 5.7.6 Temperature rise After the LED display reaches thermal equilibrium during normal use, the temperature rise of the metal part of the panel structure shall not exceed 45K. The temperature rise of the insulating material shall not exceed 70K. 5.8 Energy saving 5.8.1 Average power efficiency At room temperature, the power factor of the LED display power supply is not less than 90%, and the conversion efficiency is not less than 70%. 5.8.2 Luminance adjustment The outdoor LED display shall have the function of automatically adjusting the luminance with the change of the environmental illumination. 5.9 Functional characteristics of LED display 5.9.1 The text LED display shall have text display function and comply with detailed specification. 5.9.2 The graphic LED display shall have text and graphic display functions and comply with the detailed specification. 5.9.3 The video LED display shall have the functions of text display, animation and displayable video signals, and shall comply with the detailed specification. 5.9.4 Special application display function shall comply with detailed specification. 5.10 Optical characteristics 5.10.1 Maximum luminance The maximum luminance of the LED display assembly and the LED display shall comply with the detailed specification. 5.10.2 View angle The view angle of the LED display assembly and the LED display shall meet the requirements of detailed specification. 5.13.1 The power supply of the LED display is 220(1±10%)V, (50±1)Hz or 380(1±10%)V, (50±1)Hz. 5.13.2 The maximum power consumption per unit display area of various LED displays or the total power consumption of the LED display shall be specified in the detailed specification. 5.14 Electromagnetic compatibility 5.14.1 General rules Unless otherwise specified, the display assembly composing the indoor LED display shall be tested for electromagnetic compatibility. 5.14.2 Radio disturbance The radio disturbance limit of the display assembly composing the indoor LED display shall meet the requirements of GB 9254-2008. In the detailed specification, the radio disturbance limit specified by level A or level B shall be clearly selected. 5.14.3 Immunity The immunity limit of display assembly composing the indoor LED display shall meet the requirements of GB/T 17618-2015. 5.15 Environmental adaptability 5.15.1 General rules After each test, the testing of test samples shall meet the following requirements: a) The appearance of the test sample shall meet the requirements of 5.4. The functional characteristics shall meet the requirements of 5.9; b) The ratio of the total number of out-of-control pixels of all test samples of an inspection batch to the total number of pixels in the batch shall meet the requirements of the pixel out-of-control rate of the entire panel in Table 12. 5.15.2 High-temperature work Recommended high-temperature working environment temperature: a) The display assembly that composes the indoor LED display 40°C. b) The display assembly that composes the outdoor LED display Carry out to the display assembly that composes the LED display at the maximum working environment temperature. The relative humidity is 87%~93%, and the power is on for 8h. 5.15.6.2 Constant damp heat Unless otherwise specified, the ambient temperature of the display assembly composing the indoor LED display is 40°C. The ambient temperature of the display assembly composing the outdoor LED display is 50°C. The relative humidity is 87%~93%. The storage is 48h. 5.15.7 Vibration Carry out to the display assembly that composes the LED display. Under the conditions that the vibration frequency is 5Hz~55Hz~5Hz, the amplitude is 0.19mm, scan for 5min at a time. Scan twice separately for two perpendicular axes. 5.15.8 Transportation test 5.15.8.1 Transportation test of display assembly The transportation test for the display assembly is carried out in accordance with the level-three circulation conditions specified in GB/T 6587-2012. 5.15.8.2 Transportation test of LED display (when specified) Unless otherwise specified, the transportation test shall be carried out for vehicle mobile LED display. 5.16 Mean time between failures The average failure interval working time of the LED display, MTBF ( ), is not less than 5000h. 6 Inspection and test methods 6.1 Test conditions 6.1.1 Standard atmospheric conditions Ambient temperature: 15°C~35°C; Relative humidity: 20%~80%; Atmospheric pressure: 86kPa~106kPa. Visually inspect the protective ground terminal mark and warning mark of the LED display. And in accordance with the provisions of GB 4943.1-2011, conduct the mark durability test for the marks of the LED display, which shall meet the requirements of 5.7.3. 6.8.4 Ground leakage current 6.8.4.1 Under 1.1 times rated power supply voltage, use a leakage current tester to test the leakage current between the power cord of the display assembly forming the LED display and the metal frame (connected to the protective ground), which shall meet the requirements of 5.7.4. 6.8.4.2 For the display assembly that its circuit analysis shows that the leakage current to the ground exceeds 3.5mA/m2, but it does not exceed 5% of the input current, the randomly selected display module shall be tested for ground leakage current according to 6.8.4.1, which shall meet the requirements of 5.7.4. 6.8.5 Dielectric strength For the display assembly forming the LED display, apply a 50Hz basic sine wave, 1500V (effective value) test voltage between the AC power input end and the metal frame or accessible metal structure (connected to the protective ground), for 1min, which shall meet the requirements of 5.7.5. 6.8.6 Temperature rise 6.8.6.1 According to the provisions of GB 4943.1-2011. 6.8.6.2 After the LED display works under full load for 30min, use a thermometer to test the temperature of each accessible point, which shall meet the requirements of 5.7.6. 6.9 Energy saving 6.9.1 Average power efficiency Test the average efficiency of the power supply of the LED display according to the provisions of Annex A of GB 20943-2013, which shall meet the requirements of 5.8.1. 6.9.2 Luminance adjustment The function of adjusting the luminance of the LED display with the change of the environmental illumination, is tested according to the method specified in 5.3.6 of SJ 11281-2017. 6.10 Functional characteristics of LED display in 5.2.6 of SJ/T 11281-2017, which shall meet the requirements of 5.10.6. 6.11.7 Maximum contrast ratio Measure the maximum contrast ratio according to the method specified in 5.2.3 of SJ/T 11281-2017, which shall meet the requirements of 5.10.7. 6.12 Electrical performance 6.12.1 Gray scale Measure the gray scale according to the method specified in 5.3.3 of SJ/T 11281-2017, which shall meet the requirements of 5.11.1. 6.12.2 Refresh frame frequency Measure the refresh frame frequency according to the method specified in 5.3.1 of SJ/T 11281-2017, which shall meet the requirements of 5.11.2. 6.12.3 Refresh ratio Measure the refresh ratio according to the method specified in 5.3.2 of SJ/T 11281-2017, which shall meet the requirements of 5.11.3. 6.13 Pixel out of control rate Measure the out of control pixel according to the method specified in 5.3.5 of SJ/T 11281-2017, which shall meet the requirements of 5.12. 6.14 Power supply Use a voltmeter and other instruments to measure the power supply of the LED display. The maximum power consumption per unit display area or the total power consumption of the LED display is measured according to the detailed specification, which shall meet the requirements of 5.13. 6.15 Electromagnetic compatibility 6.15.1 General rules Unless otherwise specified, the electromagnetic compatibility test method of the display assembly composing the indoor LED display shall be conducted in accordance with the provisions of this Specification. 6.15.2 Radio disturbance The test of the radio disturbance limit of the display assembly used in the indoor LED display is carried out according to the method specified in GB 9254-2008, which shall comply with the provisions of 5.14.2. The constant damp heat test is performed on the display assembly according to the provisions of GB/T 2423.3-2006. Unless otherwise specified, when the display assembly that composes the indoor LED display is at (40±2)°C and the relative humidity is 87%~93%, when the display assembly that composes the outdoor LED display is at (50±2)°C and the relative humidity is 87%~93%, store for 48h. After the test is over, immediately measure the ground leakage current, dielectric strength and temperature rise, which shall meet the requirements of 5.7.4, 5.7.5 and 5.7.6. After 4h of recovery at room temperature, check the LED display, which shall meet the requirements of 5.15.6.2. 6.16.2 Vibration Vibration test is carried out on the display assembly according to 5.9.3 of GB/T 6587-2012. After the test, test the display module, which shall meet the requirements of 5.15.7. 6.16.7 Transportation test 6.16.7.1 Transportation test of display assembly Conduct the test to the display assembly according to the level-3 circulation conditions in 5.10.1.3 of GB/T 6587-2012. Test the test sample after the test, which shall meet the requirements of 5.15.1. 6.16.7.2 Transportation test of LED display For the vehicle mobile LED display, it shall simulate on-site transportation conditions to test or follow the detailed specification. After the test, test the appearance quality and functional characteristics, which shall meet the requirements of 5.4, 5.9 and 5.12. 6.17 Mean time between failures The inspection of average failure interval working time of the LED display, MTBF, is according to the timed fixed number censoring test program 1-2 specified in GB/T 11463-1989. α=20%, β=20%, Dm=3.0. 7 Inspection rules 7.1 Inspection classification This Specification specifies the evaluation of display assembly, type inspection and delivery inspection of LED displays. 7.2 Batching rules of inspection batch delivery inspection shall be deemed nonconforming. 7.5.5 Resubmission When the delivery inspection is nonconforming, the first resubmission is allowed after repair. The sampling plan remains unchanged. But no defects are allowed, otherwise, it shall be deemed nonconforming for the first resubmission of inspection. However, if the first resubmission is nonconforming because there is only one critical defect or two or less non-critical defects, a second resubmission after repair is allowed. No defects are allowed. If the second resubmission is still nonconforming, it shall be rejected. 8 Marks, packaging, transportation, storage 8.1 General rules The packaging, marks and storage of the LED display shall meet the requirements of SJ/T 10463-1993. 8.2 Marks 8.2.1 Product marks The nameplate shall be installed on the appropriate position of the LED display. The nameplate must contain the following: a) Trademark; b) Product name or model; c) Production date; d) Name of manufacturer. 8.2.2 Packaging marks The mark of the outer packaging box of the LED display shall comply with GB/T 6388-1986 and the following requirements: a) Product name or model; b) Trademark; c) Name of manufacturer; d) Pictorial signs such as "upward" and "fear of rain". These signs shall comply with the regulations of GB/T 191-2008; ......
 
Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.