GB/T 5729-2003 Fixed resistors for use in electronic equipment Part 1: General specification
Some standard content:
CB/T5729—2033/1EC60115-1:2001 This specification is for the use of flexible electronic equipment materials and components (QCX00) C0115-1, which is the English version of the general specification). The series of resistors are composed of the corresponding IEC standards and the same part: General specification (GB/T57292G001:1.201, Part 1: Detailed specification for low-frequency non-linear fixed resistors (GB/T5730—1%) (G3/T5730—1%): Detailed specification for low-frequency non-linear fixed resistors (G3 ... 2:1992);
Part 4, sub-standard power return screen (GB/1:57321983, dtIFC:60116-1:1332 air self-delivery detailed specification: dynamic bi-solid-state current limiter (GB/T57331985, dtTri11: 4 1:3:
Air conditioning state standard
Power type rated resistor evaluation requirements FT-3Id60115·4-2,1992),
Thin strip heat sink type rated resistor evaluation requirements G173-1EC60115-4-3,133
Part 5: Sectional specification for rated voltage resistors (GB/2734-1S85/1:0115:932): Air conditioning H network standard enclosure fixed electrical appliance evaluation standards ECB/T5-.85,01155 1:1383):
blank detailed specification
precision fixed resistor level FGRT15H1-1995.:IF1.55-:
Part 3: specification for the quality of each resistor in a single test circuit ((35/173381996.ic.11E605s.1987):
blank detailed specification
resistance value can be rejected, each output limiter is a fixed resistance network potential assessment level E (GB/TYHXn—19N7.IL:1ECe0115-S-1:19R3), blank detailed specification for resistance and power consumption different, fixed voltage monitoring network assessment level FXGn/T 7810—197.ill EC 6U-2-5-2, JU8-. Part 7: Standard annual resistance that cannot be measured separately is self-resistance. List network (/12276-19C.tIEC1011#7::9342
Foreign fine standard each electrical appliance is not measured separately into a complete medical network assessment water 17799.rIEL60111x1:
Part: Standard production type fixed resistor (/46-!s5.idtIFC6011513); Empty self-fine standard piece solid Electrical appliance certification level FGB/=U5414, idtIEC6E32::98:
·Part 9: Specifications for various types of single-output resistance measuring devices, each voltage measuring device can be installed separately, and the national standard for resistance network assessment technology is EZ: This specification (B/T57291139-1) is based on the national standard "Definition" added with "Part 1 Temperature measurement" and "Electricity!" The "electric leakage coefficient" and "surface mounted resistor" m
GB/T5729-2003/TEC60115-1.2Q01-"mark" content has added "electric plume leakage coefficient"; the "capacity approval procedure" and "rework and reconditioning" test and measurement procedures have been added to the "quality determination sequence". The absolute voltage withstand test of surface mounted resistors, the weldability test and the welding heat resistance test have been changed! In the "test and measurement method", the "actual cold" and "heat" are divided into "low temperature" and "high overflow"! The relative humidity of the standard atmosphere in the "test and the required sequence" is changed from \45%·~75%\ is changed to "25 times-75%\; with the appendix,
, for the convenience of reverse use, this specification has made the following comprehensive modifications: 1. Except for the previous
of [60115130F1], "This standard\ is collected as "the standard of the year", the appendix A, the recording and the appendix D of the specification are effective materials. This specification is proposed by the information industry of the People's Republic of China. It was produced by the National Technical Committee for Standardization of Resistor and Capacitor Components for Electronic Equipment. The drafting unit of this specification is: China Electrical Safety Technical Standards Institute (CEST); the main drafters of this specification are: Ying Wei and Chen Guanhui. 1.2 Normative references The following documents are cited as the provisions of this standard and become the provisions of this standard by reference. For referenced documents with a specified date, all subsequent static documents or sub-versions are not applicable to this specification. However, the updated versions of these documents can be checked according to the various agreements reached in this specification. For referenced documents with a specified date, the updated versions are applicable to this specification. Note: 1EX60068 adopts the reverse version.
GH/231:1999 Electrical 1 Environmental testing for products Part 2: General (1IE50088-1:1968G/T 2/2.. 1—20G1
Electrical and electronic products Environmental testing Part 2: Test methods Test A: Low current (l1F60068-2-1:1550
GH/1423.230G7 Electrical and electronic products Environmental testing Part 2: Test methods Test 3. High temperature (dt1E060068·2 2-15743
5/T3423.3--1993 Electrical and electronic products basic environmental test volume test CL: Steady current heat test method (cgVIEC0048:1981)
GB/2123.-1:1593 Basic environmental test procedures for electrical and electronic products: Alternating heat test method IFC60068 236-930)
242%5-193 Environmental standards for electric and electronic products Part 2: Test methods Test Ea and Ea: Impact (IFC 6068-2-271873
T/T428.-973
Electrical and electronic products environmental test Part 1 Test methods Test EL and Ea: Collision (IFC* CGCGA-2-29,1087)
GB:T2423.222002
Product environmental testing Part 2: Test method Test N: Temperature change (IEC6oea 21,
G3/2423,23-1 Single-use product environmental test Part 2, Acceptance method test: small output terminal and complete installation strength (l: TF6068-2-21: 19921 (HT3/T2123.30-10) Electrical and electronic product environmental testing Part 1: Test method Test XA and XA: In the cleaning setting GC6R-2-:
GB/T247=1995 Resistor terminal and through-terminal priority number system idtIEC60063: 1269-11 Customer device standard 362: 19
G/51751985 The size measurement of the two body components of the lead-out terminal (F: 632, 1! 657016-19 Due to the pet electrical ratio device electrical Current noise measurement method 0261195106GB/T70171986 Impedance non-corrosion based method itEC604G:37IE60027 (partial) Technical text derivative number: 60050 (all parts) International Electrotechnical Consultation.EVGB/T5729-20C3/(EC60115-1:20011FC630-1:1985 Commercial voltage test technology Part 1: Specifications and test requirements T:2350-2:191 High K verification technology Part 2: Measurement system IH60352:1F Electronic and electrical product environmental testing Part 2: Complete method: Test c: Report (section) 1EC60032-2-201979 Electrical.1.Product training test Part 2: Test method test T: Storage first policy single (1S?) || tt || 1E63358-221: 1S83 Electrical - Also basic product environmental test Part 2: Test method test M low ~ K [ECW68-2-58, 9 special electronic unearthed product environmental test Part 2: Test method test fast t, can be complained, the remaining layer of the required melting resistance and surface mount device (SMD) soldering heat resistance Fi21-2-: 1S8? Printed to electrical materials for reduction in length Part 2: Current standard: First year: General purpose environmentally friendly laminated panels 1S041:175 Inspection sampling plan and registration IEC002-3:1IEC quality assessment system for electrical components (1FCQ> Standard Part 3: Approval letter TFC:QCGG1533:198 [EC. Quality assessment system for electrical components (IFrQ)) Standard FQC001355:1998 Report 1E system including 19000) registration of manufacturers, products and quality services ISCIoUS2 standard system and its multiples units and notes on the use of other units 2. Technical information
2.1 Units and symbols
This standard adopts the following definitions. In addition, units, graphic symbols, text symbols and terminology should be selected from the following standards as far as possible: - IFC 60027
IEC: 6005C:
When more items are required, they should be specified in accordance with the original documents above. 2.2 Definitions
Unspecified and defined below
Type
A group of neutron components that can be statically assembled by the user with a cabinet design and manufacturing process approved or quality verification.
These components are usually communicated with a separate specification. Please say! The detailed rules can be the same as the ones in the room, so we can group together, subject to the original specifications
2 as long as the test software can be used without adults, then the disguise can be performed, the main prohibitions include the following:
self-gas and liquid construction
environment.
The specifications you set should be specified in the group specifications! 2.2.2
product style
size factors and different types of components are divided into different categories. A product can include several types. 2.2.3
grade
according to the broadcast and scheduled use of the special parts, such as the request for the heart rate report, for example: long card gold 2
GB/15729-2093/1EC60115-1:2001 "number" This term is only used in combination with one or several words (such as long name), and cannot be expressed by letters or functions. The word "generally" should be a number. 2.2.4
category (electronic components) [amily (ufleetruniccompnepis)] A group of electronic components that are characterized by their physical characteristics and/or their specific functions. 2.2.5
Classification (electronic components) snbtamilyafelertrenictumponeuls) Components manufactured by the same process within the category 22.6
Nominal value ratdTesistance
The resistance is determined by the design of the resistor, generally the resistance marked on the resistor, 2.2.7
Critical resistance
fcriticalresilune
The rated resistance is equal to the value of the component polarity (see 2.2.15 and 2.2.5) Note: Under 75°C environmental conditions, when the maximum voltage is applied between the components, please calculate the rated voltage. When the value is greater than or equal to zero, measure the limiting voltage of the entire component. When the value is less than 70°C, allow the applied voltage to drop to the sample line and the component to service life.
cateyorytemperalurerange The range of ambient temperature within which the resistor can work continuously, determined by the resistor design. This range is used to determine the relevant quality limits of the resistor. 2. 2. 9
mpper calegory temperatur
Upper category temperature
The maximum temperature in the commercial environment where the resistor can operate continuously under rated power dissipation and is determined by the design of the resistor. 7.2.10
Lower category temperature lonrercategoryteruperatureThe ambient temperature under which the resistor can operate continuously under rated power dissipation. 2.2.11
Fnuximumsurtacetemperature
Surface vertical high temperature
When the resistor is continuously operated under 70°C and rated power dissipation, the maximum temperature allowed on the surface of the resistor.
Recommended temperature library
Under the condition of the durability test of this surface, the rated power consumption can be measured continuously in the environment of high power consumption, and the rated humidity is 70℃.
The rated power is rated dissipttioim
In the micro-humidity environment, the resistance value changes within the test period, and the resistance value is not allowed to change. The rated power is 2.2. :4
The rated power is rated dissipttioim
The rated power is rated dissipttioim
In the micro-humidity environment, the rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
The rated power is rated dissipttioim
15
Rated voltage (or u) is the DC voltage or AC effective voltage calculated from the product of the nominal resistance and the rated load. Due to the size and spacing of the resistors, the rated voltage is allowed to be increased at the upper limit (see 2.2.1. 2.2. 16
Component limiting voltage lianhlgeenvetFaltareThe maximum DC or AC voltage RMS value that can be continuously applied to each lead of the device (the component limiting voltage is usually determined by the size and manufacturing process of the resistor).
When this specification uses the term "AC voltage RMS", the rated voltage does not exceed 1.42 times its voltage value. Note: When the value is less than the specified value, the device can be applied to the device series element. 2.2.17
Insulation voltage (only applicable to continuous type devices) is the maximum peak voltage that can be applied between each lead of the device and any conductive mounting surface under continuous working conditions. 2.2.18
Insulation type resistor is an electrical appliance that meets the requirements of the insulation resistance test and is installed on a metal display board and has a set voltage applied when conducting a heat test.
Insulation resistance nuatlonesatace
is under consideration.
Resistance value variation with temperature can also be expressed as humidity coefficient of resistance. 2.2.20.1
Resistance temperature characteristic emperature characteristiccharacteristicstieoregistanre relative humidity, the change in resistance produced within a specified temperature range between two different temperatures. 2.2.20.2
Resistance temperature coefficientLemperatwrecoeffectncleatorresistanceThe change in resistance between two specified temperatures divided by the temperature difference that produces this change. It should be noted that the use of this term is not intended to limit the effectiveness of the circuit. 2.2.21
voltaserefficientfresisLanceThe reversible change in resistance produced when a voltage is applied to a circuit
, expressed as a percentage of the change in resistance value shown in the figure below. 2.2.22
Visible Damage
For the specified use of the resistor, it reduces the damage range that can be achieved in the non-use. 2.2.23
Surface Mount Resistor
Fsurfare NIUNN1Resiston
Suitable for the specified resistance range of hybrid circuits and control boards due to its small size, shape and characteristics. 2.2.24
Resistors with heat sinks HRATS-SIAK Resistors are resistors that are not designed to be mounted on independent heat sinks. 2.2.25
Rated power consumption (for resistors with heat sink) ratedtlssipationGB/T5729—2003,C60115-1,2001 For resistors with heat sink, when installed on a heat sink, the temperature resistance test may be carried out under 5" temperature. The change of the storage value may be greater than the maximum dynamic range allowed by the durability test. 2. 26
Component maximum temperature nxinwnelebettemperalure Under any condition of the allowable workpiece, the maximum temperature on the surface of the insulator or at a point inside it 2.3 Priority estimate
2.3.1 Overview
Each component specification item shall be specified for the effective resistance value of the component. For the subscript resistance value, see 2.3.2. 2.3.2 Priority value of nominal resistance
The priority value of the nominal function value shall be selected from the numbers specified in GH/2711595. 2.4 Marking
2.4.1 Overview
2.4.1.1 The contents given in the marking are usually selected from the following items. The relative importance of each item is noted in the position in the item sequence to indicate the nominal value;
b) Nominal resistance allowable deviation;
Resistance temperature variation (when applicable): wwW.bzxz.Net
Manufacture year, month (or the same),
) Group specification and product mark:
Manufacturer's name or trademark.
2.4.1.2 The packaging of the resistor shall be clearly marked in 2.4.1> and 6). All items related to the resistor shall be marked as much as possible, and the markings on the resistor shall be removed.
2.4.1.3 The packaging of the resistor shall be 2.1.1. The markings shall not be confused with any markings added. 2.4.1.4. When the code is used, the method and (factory selection policy? 91-1994) 3 Quality Assessment Procedure
3.1 Overview
When this document is used in conjunction with the relevant regulations, the quality assessment system described above shall be followed, such as: Electronic Components Quality Assessment System (IEC 3.5 and 3.6).
When this specification is used in a related specification, such as IFCQ, detailed quality system, such as design verification or test annex, the procedures and requirements of .5, and 3, .h? can be adopted. Each part of the test and verification should be carried out according to the certification given in the test. Before the return of the device to this specification, the factory should follow the standard of complete failure appraisal of the structure of the market type device. There are two methods: one is to follow the E.U1 One is to conduct capacity approval according to Chapter 3 of IEC 612-3; the other is to conduct capacity approval according to Chapter 4 of IEC 612-3. For a certain category of resistor, there must be a separate external specification for identification, selection and capacity approval. Only when the relevant sub-specification has been issued can the capacity approval be made independently. 3.1.1 Scope of the inspection and approval standard || tt || The standard is applicable to a resistor of a certain design and process manufactured in a certain group of steel specifications. According to 3, 5 and related sub-specifications, the detailed specifications shall be used directly for the resistors specified in the clauses according to the corresponding evaluation level and performance level.
GB/T 5729--2003/LEC 60115-1:20013.1.2 Capacity approval specifications
Capacity approval specifications are applicable to resistors based on the same design and produced by the same process when they are produced according to the customer's customized requirements: Capacity approval is particularly applicable:
Under the condition of capacity approval, the detailed specifications shall be divided into the following three categories. 3.1.2.1 Capacity qualification components (CQs). Including process confirmation test equipment The National Inspection Agency (NIS) must prepare a detailed specification for the use of CC for the parent company's sales of components and include all relevant test capacity changes and specifications. 3.1.2.2 Standard Catalog Components
When the manufacturer requires the device to be listed in the attached 1EQ registration record according to the capability approval procedure, the blank detailed specification with the same effective approval details shall be filled in, and this specification shall be used by E, and the device shall be listed in IECQC>. 3.1.2.3 User customized components
Detailed specifications (generally referred to as customized specifications) should be in accordance with FCQC:001Cc2-31.1.3, and the government should cooperate with the relevant regulations.
Detailed specifications are more detailed in the specification: Capability approval is to confirm the design, process and quality or production procedures, as well as the test results of the selected components, and also the basis for the production of the device. Detailed specifications (new related specifications, 3.2 Initial manufacturing stage
For the specification of the terminal: \ Preface · Initial manufacturing stage, plastic tape
Resistor film deposited on the base:
-- Composite resistor:
Bonding in the process of production is the most humanized process of the first-line resistor:
The control of the resistor wire (or some) on the skeleton, the gold foil resistor end:
The fixing of the fuselage on the body
3.3 Subcontracting
If the initial manufacturing stage and/or subsequent stages adopt the subcontracting method, it shall comply with: 4.2.2 of 0C001C2-5 and 4.2.2 of 1EQC001C23. 2.2.2 Requirements for limited sound packages. 3.4 The grouping of components of the digital structure for the approval of the quality conformity test of the station structure shall be specified in the relevant classification pool. 3.5 Approval process 3.5.1 Approval of the uniformity of the factory to meet the requirements of 3.1.1 of E12-3, 3.5.7 Approval of the use of the factory to adjust the quality of the factory virtual 1E0.0023 5.1.3 3.5.3 Approval of the test procedure t||One of the following two procedures should be adopted: 6) The manufacturer should carry out three batch inspections and one periodic inspection in the shortest possible time to verify compliance with the requirements of the specification: Within the durability period of the finished inspection report, the product shall be received by the manufacturing process warehouse without any defects, and the samples shall be drawn from the batch according to the provisions of E4 (see Appendix A). The sample units of the representative high and low resistance values and critical resistance values in the batch are included in this specification. When the critical resistance is between the total value and the lowest value: the sample unit. The selection of the lowest and highest values determines the granting of certain approved special resistance values. 5729--2DC3/IEC 60115-1.2001 The normal inspection shall be included, but when the sample size is not enough to accept a non-conforming product, the sample units shall be increased to meet the sample size required to accept a conforming product.
b) Manufacturing! The fixed sample size test list given in the sub-specification shall be tested to confirm compliance with the current specification requirements. The sample units of the construction shall be randomly selected from the current production products or in accordance with the VST approved format. 3.5.4 Grant of Qualification Approval
When the procedures of 3.1.1 of 1F:Q001(02-3) have been completed, the qualification approval shall be granted directly. 3.5.5 The approval certificate shall be signed and the routine test of quantitative properties (see 3.>.6) shall be applied to maintain the qualification approval. 3.5.6 Quality or consistency test procedures
The specification for quality or consistency test shall specify a test schedule for quality or consistency test. This schedule shall specify the grouping, sampling and frequency of periodic and re-tests.
Except for durability tests, in all groups of core tests, the loss sequence is allowed to be used to reduce the frequency of group tests. If a change is required, the customer's list is determined.
3.0 Capability Approval Process
3.6.1 Overview
The capability approval of five resistor technologies includes: - "Optical design, village to each and every technical package according to the control sequence inspection": to the process and strictly specified performance range. That is, to the absolute performance range of the capability adjustment components (CQCs) and process control parameters (PCP%)!
Mechanical structure range of our standard
3.6.2 Qualification of capability approval
The manufacturer's degree of compliance with 1EC 4.2.1 of QC001CC23, 3.6.3 Application for force approval
The manufacturer shall comply with the requirements of IEQ (2,1 of 1LF2-3 and relevant sub-standards: 3.6.4 Capability description
The capability booklet and relevant sub-standards of 1FQC001002-3 4.2.5 shall be described in accordance with the requirements of the capability booklet and relevant sub-standards. S1 The capability booklet shall be provided as a confidential design. If the manufacturer is interested, it may be partly or completely disclosed to a third party. 3.6.5 Force verification and validation
To verify and certify the capability, the manufacturer shall comply with the requirements of 4.2.6 of TQ001002-3 and relevant sub-standards and the following details 3.6.5.1. CQCs used to verify capability
The capability to be verified is also used according to the requirements of the capability party: The manufacturer and NS cooperate to produce the control system through the control process to verify the capability of the company through testing (QC specification, QC specification, QC specification meets the following requirements:
a) The selected (QC specification should represent the whole process of the application, the selected CQC points can properly implement the various combinations of the country,
CQCs belong to one of the following situations:
According to the certification The above two situations are combined and should meet the requirements of the company: when the company has not approved the design and production of the product, the manufacturer should adopt the design specifications, materials and production processes that are consistent with the product. For each CQ, a detailed design specification should be prepared and compiled in the format of the company: the detailed specifications indicate the date of the CQ. The opening should include all relevant rigorous and sensitive tests. The internal control documents should be in accordance with the production certificate GD/T 5729-2003/1EC 60115-1.2C01 Verification records are used to verify the control of the process and maintain the scope of improvement. 3.6.5.2 Capability scope
The relevant specifications should specify the scope of capacity. 3.6.6 Capability approval procedure
According to the provisions of 4.2.6 of "F:Q001m2-3", the manufacturer should write a procedure for the determination of capacity. The changes in the program should be managed by the relevant QC to verify the annual clearance of capacity. The procedure should include the following contents:
To approve the plan of activities Figure or other means: - All QCs shall follow their own detailed specifications and use details: : The characteristics shown in the histogram confirmed by each CQC; Influence on the control plan adopted for process control, 3.6.7
Test evidence of capability approval
Obtained service 1: The heat of 4.2.6.3 of QC0G1052-3, the service report shall also be published in the form of a publication, the report shall comply with the requirements of this specification and include the following contents:
Version number and date of the capability book;
Specified in 3.6.6 The procedure for capability approval, all test results obtained during the execution of the capability approval document; the overall decision adopted; the report on the measures to be taken in the event of failure (see 3.5.10.1), signed by the designated management representative (DMR) of the competent authority as a tangible proof of the obtained results, shall be submitted to the national authorized capability approval organization. 3.6.B Summary of capability description After obtaining capability approval, the summary will become a formal publication in 1FCQC001 (5). The summary should include a brief description of the manufacturer's capabilities and a brief description of the Manufacturing! Obtain approval of the technology, product structure and product specifications. 3.6.9 Changes that may affect the capability approval. Any changes that may affect the capability approval shall be specified in 4.2.1.1 of IFCQH11002-3. 3.6.10 Initial capability approval. Conditions for granting capability approval: The scope selected by the CQCs has fully met the assessment requirements of the CQC detailed specifications, and no non-conformities are allowed; the process control system has been fully implemented. See Figure 1 for capability approval. 3.6.10.1 Failure handling
1ECQCC: and the following:
When the vehicle unit does not meet the test requirements, the manufacturer shall notify NSI and clearly adopt one of the measures specified in items a) and h) below: a) Conduct a review of the capability range of the package plan; 1) Study the failure reasons of the following items: If the test equipment fails, the design or process fails,
If it is confirmed that the failure reason is the failure of the test itself, after taking necessary special measures, the same failed sample unit or a new sample unit shall be tested. If the new unit is exempted from the test, all test items shall be carried out according to the items specified in the test list adopted by the failed unit. If the failure reason is determined to be a verification of the design and process selection,
If the failure reason is confirmed to be a verification of the design and process selection, after taking necessary special measures, the same failed sample unit or a new sample unit shall be tested. If the new unit is exempted from the test, all test items shall be carried out according to the items specified in the test list adopted by the failed unit. 8
≤R/T5729-20D3/IEC60115-1.2001 According to the document, a test should be carried out to verify that the cause of failure has been eliminated and all other potential measures in the document have been implemented. After the corrective measures have been taken, a new Q is used. The test sequence of the failure should be carried out. After the manufacturer has completed all the above actions, it should report to the manufacturer and attach the capability approval test report to the manufacturer for printing (3, 7). Specification
Selection of library and capacity identification unit plan
Development of production plan
Preliminary capability approval
Capability certification
Development of C1C detailed specifications
Brushing of small adjustment items
European verification process
Evil approval control
Figure 1 Capability approval Standard List
3.6.10.2 Overall Plan for Selecting PLPg and (XXs) Each manufacturer shall draw a process diagram according to the examples given in the relevant specifications. For all the clusters included in the process flow diagram, the corresponding process control shall be specified.
The manufacturer shall specify the control points according to the examples given in the relevant specifications. 3.6.10.3 Process Control Test Plan
The test plan shall be constructed as part of the process control system adopted. When State Systematic Process Control (SPC) is adopted, it shall be completed in accordance with the basic requirements of S1C. At the process nodes, the plan is strengthened to the control points. In order to use the fast process step of product improvement, the manufacturer shall invest in the specified time to monitor the process phenomena, and store the collected data with the determined control lever execution range. 3.6.10.4 The test plan for verifying the capability range of COCs shall be specified in the relevant sub-specifications. 3.6.11 Granting of capability approval When the requirements specified in 4.2.5 of 1FCQC.001002-3 and the requirements of the relevant sub-specifications are met, the capability approval shall be granted. 3.6.12 Maintenance of capability approval The capability approval shall be maintained in accordance with the requirements of 4.2 of 1FCQC1002-3 and the requirements of the maintenance schedule specified in the relevant sub-specifications: In addition, the following rules shall apply. The capability approval is valid for two years and no re-testing is required within two years as specified by the manufacturer (QLs re-testing and type sequence). For surface control, the manufacturer shall establish a control system. Examples of control work can be given in the sub-specifications, for the force recovery cold proof, the system should be suitable for carbon maintenance 3.6.10.1 its capacity approval expansion of the relevant 5 tests a
CB/T5723-2003/IRC60115-1:2001 program contains at least every two years.
The quality of the delivery electric socket can be inspected and approved by the manufacturer forklift with the same process, and in its domestic approval specification approved heart resistor, the quality of the approved board control test results can be used to maintain the capacity standard.
The manufacturer shall ensure that: the delivered product meets the relevant specifications. The manufacturer shall maintain production so that the process specified in the
Complete Capability Manual remains unchanged, except for the content that is intentionally added or removed during the production and final test. The manufacturer shall continue to produce the product for six months under the careful and accurate time. The manufacturer shall thoroughly check the process of the capability maintenance plan to ensure that the service is within the scope of the country and the capability to be verified. 3.6,13 Expansion of Capability Approval
Manufacturing! When the proposed extension is different from the model range specified in 3, 13, 4, the manufacturer shall propose the sampling and testing adopted and approve it with NST. The manufacturer shall also establish a new standard for the new standard. The extension of the application shall be alternated with the original approval method. 3.6.14 Quality consistency inspection
Quality consistency inspection requirements shall be specified in the detailed European specification: It shall comply with the requirements of 4.3. of IFCQ Center U0103-3. 5.7 Rework and repair
3.7.1 Rework
If prohibited in the relevant specification, it shall be rework as defined in 4.1.4 of 1139: If rework is allowed for certain components under certain conditions: The relevant sub-specification shall be stated in the specification. Rework, no color is allowed,
3.7.2 Rework
Return can be released according to the definition of 4.1.5 of TQC00J332-3 after the repair medicine is returned to the device [EC system copy. 3.8 Delivery release
3.8.1 Overview
After the resistor is inspected and accepted for the quality specified in the completion or detailed specifications, it should be inspected according to 3.2.6 and 4.3 of [FC.QC001002-1.3. For approved products, 8.2 can be released for delivery after completing the B group test. If the transfer policy of IEC0110 is established, the manufacturer is allowed to release these components before completing the H group test.
3.0 Qualification verification record of released batch
The purchaser requires the verification record. The flow record should be specified in the detailed specification: For the capability batch, the verification record will provide the test results of the capability identification unit. 3.10 Periodic inspection
Unless otherwise specified in the sub-specification, the storage period of the resistors released with the release batch shall be re-tested for selectivity and resistance value before delivery in accordance with the provisions of the specification group A and 1. The new inspection batch received by the manufacturer DMR shall be NSI. If the new inspection is passed by the general register on the same day, its quality can be guaranteed within a certain period of time. 3.11 Replacement test method
See TFCQ001CC2-3, 2. Release the following rules: In case of dispute, the existing average method can be used for arbitration, 15
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