村田LQG电感系列SGS报告

电感器检验报告范文一、引言电感器是一种用于储存和释放电能的被动元件。

它们广泛应用于电子电路、通信系统、电力系统等领域。

为了确保电感器的性能和质量达到要求，进行检验是非常必要的。

二、检验目的本次电感器检验的目的是验证其电感值、直流电阻和耐电压等性能参数是否符合规定要求，以确保其正常运行和可靠性。

三、检验内容1.电感值测量：选取一组电感器进行电感值测量，使用经过校准的电感测量仪器，在标准工作频率下测量并记录其电感值。

2.直流电阻测量：选取同一组电感器，在标准电压下进行直流电阻测量。

记录测量结果并与规格要求进行对比。

3.耐电压测试：选取一组电感器，将其连接到指定的电源电压下，施加规定的电压持续时间。

检查电感器是否能承受该电压，并记录测试结果。

四、检验方法1.电感值测量：采用串联法或并联法进行电感值测量，确保电感器与测量仪器正确连接，保证测量准确性。

2.直流电阻测量：使用恒流源和万用表等仪器，将电源电压施加在电感器上，使用万用表测量电感器两端的电压。

根据欧姆定律计算直流电阻值。

3.耐电压测试：将电感器连接到指定电源电压下，通过电流表监测电流变化，检查电感器是否能承受该电压，记录测试结果。

五、检验结果与分析根据检验方法，对所选取的电感器进行检验，并记录测量结果。

经过对比规格要求，得出电感值、直流电阻和耐电压等性能参数是否符合规定要求。

六、结论根据检验结果，判断电感器是否合格。

如电感值、直流电阻和耐电压等参数符合规定要求，则判定为合格；如不符合要求，则判定为不合格，需要进行调整或重新选择。

七、检验设备和仪器本次电感器检验所用的设备和仪器包括：经过校准的电感测量仪器、恒流源、万用表、电流表等。

八、安全注意事项1.检验人员需穿戴合适的工作服和防护用品，确保检验过程的安全。

2.检验过程中，应注意仪器和电源的接线是否正确，避免因接线错误引发安全事故。

3.对于高电压环境下的耐电压测试，需有专门的设备和人员参与，并遵循相应的安全规范。

LQH2MCN220K02#“#”处为包装规格代号。

＜品名（附包装代号）一览＞
LQH2MCN220K02L、　LQH2MCN220K02B
形状
尺寸 2.0 ±0.2mm
规格
备注事项
Notice (Rated Current)
When Rated Current is applied to the Products, self-generation of heat will rise to
40℃ or less.
参考信息
在1 / 2页
1.　本目录是从株式会社村田制作所网站中下载的。

规格若有变更，或若其中产品停产，请在订购时确认，恕不另行通知。

2.　本目录因没有足够的空间说明详细规格，仅载明标准规格。

因此，在订购产品之前，谨请核准其规格或者办理产品规格表。

URL : /
作成日期：2013/06/27
电感徝-频率特性(标准值)
电感徝-电流特性(标准值)
在2 /
2页
作成日期：2013/06/27本目录因没有足够的空间说明详细规格，仅载明标准规格。

因此，在订购产品之前，谨请核准其规格或者办理产品规格表。

SpecNo.JELF243B-9101H-01 P.1 / 11Reference OnlyCHIP COIL (CHIP INDUCTORS) LQG15HH □□□□02DMurata Standard REFERENCE SPECIFICATION [AEC-Q200]1.ScopeThis reference specification applies to LQG15HH series Chip coil (Chip Inductors) for Automotive Electoronics based on AEC-Q200.2.Part Numbering(ex) LQ G 15 H H 1N0 S 0 2 DProduct ID Struture Dimension Applications Category Inductance Tolerance Features Electrode Pakaging(L ×W) and for Automotive D:TapingCharacteristics Electoronics3.Rating・Operating Temperature Range. –55°C to +125°C ・Storage Temperature Range. –55°C to +125°CCustomer Part Number MURATAPart NumberInductance (nH) ToleranceQ(min.)DC Resistance (Ω max. ) Self ResonantFrequency (MHz min. )Rated Current (mA)ESD Rank 1C:1kV(*1)(refer to below comment)LQG15HH1N0B02D1.0B:±0.1nHC:±0.2nH S:±0.3nH8 0.07 10000 10001CLQG15HH1N0C02D LQG15HH1N0S02D LQG15HH1N1B02D1.1 6000 LQG15HH1N1C02DLQG15HH1N1S02D LQG15HH1N2B02D 1.2 LQG15HH1N2C02D LQG15HH1N2S02DLQG15HH1N3B02D1.3 LQG15HH1N3C02DLQG15HH1N3S02D LQG15HH1N5B02D1.5 LQG15HH1N5C02DLQG15HH1N5S02D LQG15HH1N6B02D 1.6 LQG15HH1N6C02D LQG15HH1N6S02D LQG15HH1N8B02D 1.8 0.08 950LQG15HH1N8C02D LQG15HH1N8S02DLQG15HH2N0B02D2.0 0.09 900LQG15HH2N0C02DLQG15HH2N0S02DLQG15HH2N2B02D 2.2 LQG15HH2N2C02D LQG15HH2N2S02D LQG15HH2N4B02D2.4 0.11 850 LQG15HH2N4C02DLQG15HH2N4S02D LQG15HH2N7B02D 2.7 0.12 800 LQG15HH2N7C02D LQG15HH2N7S02D LQG15HH3N0B02D 3.0 0.125LQG15HH3N0C02D LQG15HH3N0S02DLQG15HH3N3B02D3.3 LQG15HH3N3C02DLQG15HH3N3S02D LQG15HH3N6B02D3.6 0.14 750 LQG15HH3N6C02DLQG15HH3N6S02DCustomer Part Number MURATAPart NumberInductance (nH) ToleranceQ(min.)DC Resistance (Ω max. ) Self ResonantFrequency(MHz min. )RatedCurrent(mA)ESD Rank 1C:1kV(*1)(refer to below comment)LQG15HH3N9B02D3.9 B:±0.1nHC:±0.2nHS:±0.3nH8 0.14 6000 7501CLQG15HH3N9C02DLQG15HH3N9S02DLQG15HH4N3B02D 4.3 LQG15HH4N3C02D LQG15HH4N3S02D LQG15HH4N7B02D 4.7 0.16 700LQG15HH4N7C02D LQG15HH4N7S02DLQG15HH5N1B02D5.1 0.18 5300 650LQG15HH5N1C02DLQG15HH5N1S02DLQG15HH5N6B02D5.6 4500 LQG15HH5N6C02DLQG15HH5N6S02D LQG15HH6N2B02D6.2 0.20 600LQG15HH6N2C02DLQG15HH6N2S02DLQG15HH6N8G02D6.8 G:±2%H:±3%J:±5%0.22 LQG15HH6N8H02DLQG15HH6N8J02D LQG15HH7N5G02D 7.5 0.24 4200 550LQG15HH7N5H02D LQG15HH7N5J02DLQG15HH8N2G02D 8.2 3700 LQG15HH8N2H02D LQG15HH8N2J02DLQG15HH9N1G02D 9.1 0.26 3400500LQG15HH9N1H02D LQG15HH9N1J02DLQG15HH10NG02D10 LQG15HH10NH02D LQG15HH10NJ02D LQG15HH12NG02D12 0.28 3000 LQG15HH12NH02DLQG15HH12NJ02DLQG15HH15NG02D15 0.32 2500 450 LQG15HH15NH02DLQG15HH15NJ02D LQG15HH18NG02D18 0.36 2200 400 LQG15HH18NH02DLQG15HH18NJ02D LQG15HH22NG02D 22 0.42 1900 350 LQG15HH22NH02D LQG15HH22NJ02D LQG15HH27NG02D 27 0.46 1700 LQG15HH27NH02D LQG15HH27NJ02D LQG15HH33NG02D33 0.58 1600 LQG15HH33NH02DLQG15HH33NJ02D LQG15HH39NG02D39 0.65 1200 300 LQG15HH39NH02DLQG15HH39NJ02DCustomer Part Number MURATAPart NumberInductance (nH) Tolerance Q(min.) DC Resistance (Ω max. ) Self Resonant Frequency (MHz min. )Rated Current (mA)ESD Rank 1C:1kV(*1)(refer to below comment)LQG15HH47NG02D 47 G:±2%H:±3%J:±5%8 0.72 1000 3001CLQG15HH47NH02D LQG15HH47NJ02DLQG15HH56NG02D 56 0.82 800 250LQG15HH56NH02D LQG15HH56NJ02DLQG15HH68NG02D68 0.92 LQG15HH68NH02DLQG15HH68NJ02D LQG15HH82NG02D82 1.20 700 200 LQG15HH82NH02DLQG15HH82NJ02D LQG15HHR10G02D100 1.25 600 LQG15HHR10H02DLQG15HHR10J02DLQG15HHR12G02D120 1.30 LQG15HHR12H02DLQG15HHR12J02DLQG15HHR15G02D 150 2.99 550 150LQG15HHR15H02D LQG15HHR15J02DLQG15HHR18G02D 180 3.38 500 LQG15HHR18H02D LQG15HHR18J02D LQG15HHR22G02D 220 3.77 450 120 LQG15HHR22H02D LQG15HHR22J02D LQG15HHR27G02D270 4.94 400 110 LQG15HHR27H02DLQG15HHR27J02D(*1) Standard Testing Conditions《Unless otherwise specified 》 《In case of doubt 》Temperature : Ordinary Temperature / 15°C to 35°C Temperature: 20°C ± 2°CHumidity :Ordinary Humidity / 25%(RH) to 85%(RH) Humidity : 60%(RH) to 70%(RH) Atmospheric Pressure : 86kPa to 106 kPa4. Appearance and Dimensions■Unit Mass (Typical value)6.Q200 Requirement6.1.Performance (based on Table 5 for Magnetics(Inductors / Transformer)AEC-Q200 Rev.D issued June 1. 2010AEC-Q200 Murata Specification / Deviation No Stress TestMethod3 HighTemperatureExposure 1000hours at 125 deg CSet for 24hours at roomtemperature, then measured.Meet Table A after testing.Table A4 TemperatureCycling 1000cycles-40 deg C to +125 deg CSet for 24hours at roomtemperature,thenmeasured.Meet Table A after testing.7 Biased Humidity 1000hours at 85 deg C, 85%RHunpowered.Meet Table A after testing.8 Operational Life Apply 125 deg C 1000hoursSet for 24hours at roomtemperature, then measuredMeet Table A after testing.9 External Visual Visual inspection No abnormalities10 Physical Dimension Meet ITEM 4（Style and Dimensions）No defects12 Resistanceto Solvents PerMIL-STD-202Method 215Not ApplicableAppearance No damageInductanceChange(at 100MHz)Within ±10%AEC-Q200 Murata Specification / Deviation No Stress TestMethod13 Mechanical Shock Per MIL-STD-202Method 213Condition C : 100g’s(0.98N),6ms, Half sine, 12.3ft/sMeet Table A after testing.14 Vibration 5g's(0.049N) for 20 minutes,12cycles each of 3 oritentationsTest from 10-2000Hz.Meet Table A after testing.15 Resistanceto Soldering Heat No-heatingSolder temperature260C+/-5 deg CImmersion time 10sMeet Table A after testing.Pre-heating 150C +/-10 deg C, 60s to 90s17 ESD Per AEC-Q200-002 ESD Rank: refer to the Item3 (Rating).Meet Table A after testing18 Solderbility Per J-STD-002 Method b : Not Applicable90% of the terminations is to be soldered.19 ElectricalCharacterizationMeasured : Inductance No defects20 Flammability Per UL-94 Not Applicable21 Board Flex Epoxy-PCB(1.6mm)Deflection 2mm(min)Holding time 60s Meet Table B after testing.Table BAppearance No damage DCresistanceChangeWithin ±10%22 Terminal Strength Per AEC-Q200-006A force of 17.7Nfor 60s Murata Deviation Request: 5N No defects7.Specification of Packaging(in mm)7.2 Specification of Taping(1) Packing quantity (standard quantity)10,000 pcs. / reel(2) Packing MethodProducts shall be packed in the cavity of the base tape and sealed by top tape and bottom tape.(3) Sprocket holeThe sprocket holes are to the right as the tape is pulled toward the user.(4) Spliced pointBase tape and Top tape has no spliced point.(5) Missing components numberMissing components number within 0.1 % of the number per reel or 1 pc., whichever is greater,andare not continuous. The Specified quantity per reel is kept.0.8m ax.7.3 Pull StrengthTop tape5N min.Bottom tape7.4 Peeling off force of cover tapeSpeed of Peeling off 300mm/min Peeling off force0.1N to 0.6N(minimum value is typical)7.5 Dimensions of Leader-tape,Trailer and ReelThere shall be leader-tape ( top tape and empty tape) and trailer-tape (empty tape) as follows.7.6 Marking for reelCustomer part number, MURATA part number, Inspection number(*1) ,RoHS Marking(*2), Quantity etc ･･･*1) <Expression of Inspection No.> □□ OOOO ⨯⨯⨯(1) (2) (3)(1) Factory Code (2) Date First digit : Year / Last digit of yearSecond digit: Month / Jan. to Sep. → 1 to 9, Oct. to Dec. → O, N, D Third, Fourth digi : Day(3) Serial No.*2) <Expression of RoHS Marking> ROHS – Y (△)(1) (2)(1) RoHS regulation conformity parts. (2) MURATA classification number7.7 Marking for Outside package (corrugated paper box)Customer name, Purchasing order number, Customer part number, MURATA part number, RoHS Marking(*2) ,Quantity, etc ･･･7.8. Specification of Outer CaseOuter Case Dimensions(mm)Standard Reel Quantityin Outer Case (Reel)W D H 186 186 93 5* Above Outer Case size is typical. It depends on a quantity of an order.F165to 180degreeTop tape Bottom tapeBase tapeWDLabelH8. △!Caution8.1 Caution(Rating)Do not exceed maximum rated current of the product. Thermal stress may be transmitted to the product and short/open circuit of the product or falling off the product may be occurred.8.2 Fail-safe Be sure to provide an appropriate fail-safe function on your product to prevent a second damage that may becaused by the abnormal function or the failure of our product.8.3 Limitation of ApplicationsPlease contact us before using our products for the applications listed below which require especially high reliability for the prevention of defects which might directly cause damage to the third party's life, body or property.(1) Aircraft equipment (6) Transportation equipment (trains, ships, etc.) (2) Aerospace equipment (7) Traffic signal equipment(3) Undersea equipment (8) Disaster prevention / crime prevention equipment (4) Power plant control equipment (9) Data-processing equipment (5) Medical equipment (10) Applications of similar complexity and /or reliability requirements to the applications listed in the above9. NoticeProducts can only be soldered with reflow. This product is designed for solder mounting.Please consult us in advance for applying other mounting method such as conductive adhesive.9.1 Land pattern designinga 0.4b 1.4 to 1.5c 0.5 to 0.6(in mm)9.2 Flux, Solder・Use rosin-based flux.Don’t use highly acidic flux with halide content exceeding 0.2(wt)% (chlorine conversion value). Don’t use water-soluble flux. ・Use Sn-3.0Ag-0.5Cu solder.・Standard thickness of solder paste : 100μm to 150μm.Resist9.3 Reflow soldering conditions・Inductance value may be changed a little due to the amount of solder.So, the chip coil shall be soldered by reflow so that the solder volume can be controlled.・Pre-heating should be in such a way that the temperature difference between solder and product surface is limited to 150°C max. Cooling into solvent after soldering also should be in such a way that the temperature difference is limited to 100°C max.Insufficient pre-heating may cause cracks on the product, resulting in the deterioration of products quality. ・Standard soldering profile and the limit soldering profile is as follows.The excessive limit soldering conditions may cause leaching of the electrode and / or resulting in the deterioration of product quality.・Reflow soldering profileStandard Profile Limit Profile Pre-heating 150°C ～180°C 、90s ±30s Heating above 220°C ､30s ～60s above 230°C ､60s max. Peak temperature 245°C ±3°C 260°C,10s Cycle of reflow 2 times 2 times9.4 Reworking with soldering ironThe following conditions must be strictly followed when using a soldering iron.Pre-heating 150°C,1 min Tip temperature 350°C max. Soldering iron output 80W max. Tip diameter φ3mm max. Soldering time 3(+1,-0)sTime 2 timesNote :Do not directly touch the products with the tip of the soldering iron in order to prevent the crack on the products due to the thermal shock.9.5 Solder Volume・ Solder shall be used not to be exceed the upper limits as shown below.・ Accordingly increasing the solder volume, the mechanical stress to Chip is also increased. Exceeding solder volume may cause the failure of mechanical or electrical performance.1/3T ≦t ≦TT ：thickness of product9.6 Mount ShockOver Mechanical stress to products at mounting process causes crack and electrical failure etc.Limit ProfileStandard Profile 90s±30s 230℃260℃245℃±3℃220℃30s～60s 60s max.180150Temp.(s)(℃)Time.9.7 Product’s locationThe following shall be considered when designing and laying out P.C.B.'s.(1) P.C.B. shall be designed so that products are not subjected to the mechanical stress due to warping the board.［Products direction ］Products shall be located in the sideways direction (Length:a ＜b) to the mechanical stress.(2) Components location on P.C.B. separation. It is effective to implement the following measures, to reduce stress in separating the board.It is best to implement all of the following three measures; however, implement as many measures as possible to reduce stress.Contents of MeasuresStress Level (1) Turn the mounting direction of the component parallel to the board separation surface. A > D *1 (2) Add slits in the board separation part.A >B (3) Keep the mounting position of the component away from the board separation surface. A > C*1 A > D is valid when stress is added vertically to the perforation as with Hand Separation.If a Cutting Disc is used, stress will be diagonal to the PCB, therefore A > D is invalid.(3) Mounting Components Near Screw HolesWhen a component is mounted near a screw hole, it may be affected by the board deflection that occurs during the tightening of the screw. Mount the component in a position as far away from the screw holes as possible.9.8 Cleaning ConditionsProducts shall be cleaned on the following conditions.(1) Cleaning temperature shall be limited to 60°C max.(40°C max for IPA.)(2) Ultrasonic cleaning shall comply with the following conditions with avoiding the resonance phenomenon at the mounted products and P.C.B.Power : 20 W / l max. Frequency : 28kHz to 40kHz Time : 5 min max.(3) Cleaner1. Alcohol type cleanerIsopropyl alcohol (IPA)2. Aqueous agentPINE ALPHA ST-100S(4) There shall be no residual flux and residual cleaner after cleaning. In the case of using aqueous agent, products shall be dried completely after rinse with de-ionized water in order to remove the cleaner. (5) Other cleaning Please contact us.〈Poor example 〉〈Good example 〉ba9.9 Resin coatingThe inductance value may change and/or it may affect on the product's performance due to highcure-stress of resin to be used for coating / molding products. So please pay your careful attention whenyou select resin.In prior to use, please make the reliability evaluation with the product mounted in your application set.9.10 Handling of a substrateAfter mounting products on a substrate, do not apply any stress to the product caused by bending ortwisting to the substrate when cropping the substrate, inserting and removing a connector from thesubstrate or tightening screw to the substrate.Excessive mechanical stress may cause cracking in the product.Bending Twisting9.11 Storage and Handing Requirements(1) Storage periodUse the products within 6 months after deliverd.Solderability should be checked if this period is exceeded.(2) Storage conditions・Products should be stored in the warehouse on the following conditions.Temperature: -10°C to 40°CHumidity: 15% to 85% relative humidity No rapid change on temperature and humidityDon't keep products in corrosive gases such as sulfur,chlorine gas or acid, or it may causeoxidization of electrode, resulting in poor solderability.・Products should be storaged on the palette for the prevention of the influence from humidity, dust and so on.・Products should be storaged in the warehouse without heat shock, vibration, direct sunlight and so on.・Products should be storaged under the airtight packaged condition.(3) Handling ConditionCare should be taken when transporting or handling product to avoid excessive vibration or mechanical shock.10．△!Note(1) Please make sure that your product has been evaluated in view of your specifications with our product being mounted to your product.(2) You are requested not to use our product deviating from the reference specifications.(3) The contents of this reference specification are subject to change without advance notice.Please approve our product specifications or transact the approval sheet for product specificationsbefore ordering.Reference OnlySpecNo.JELF243B-9101H-01 P.11 / 11。

测试报告 No. CQTC1105237/CHEM 日期: 2011年11月30日 第1页, 共5页 测试报告武汉鸿宇鑫电子科技有限公司武汉市东湖新技术开发区花山大道388号以下测试之样品是由申请者所提供及确认：快削钢SGS工作编号: 13510663SGS内部编号: 2.1样品信息: 型号: 1215; 主要成份: 钢铁样品接收日期: 2011年11月25日测试周期: 2011年11月25日 - 2011年11月29日测试要求 : 根据客户要求测试测试方法 : 请参见下一页测试结果 : 请参见下一页测试结论 : 基于所送样品进行的测试，镉、铅、汞、六价铬、多溴联苯(PBB)、多溴二苯醚(PBDE)的测试结果符合符合欧盟RoHS指令2002/95/EC的重订指令2011/65/EU附录II的限值要求。

符合通标标准技术服务有限公司授权签名______________________Rose Lei雷玉叶批准签署人备注: 根据客户申请, SGS出具了此中文报告, 英文版本可根据客户要求提供. (The Chinese test report is issued according to the applicant’s request. The English version is available from SGS if further needed).测试报告 No. CQTC1105237/CHEM 日期: 2011年11月30日 第2页, 共5页 测试报告试验结果:测试部件外观描述:样品编号SGS 样品 ID 描述1 CQTC1105237.001灰色金属备注:(1) 毫克每千克=百万分之一(mg/kg=ppm)(2) MDL = 方法检测限(3) ND = 未检测出 (小于检测极限值)(4) “-” = 未规定RoHS指令2011/65/EU试验方法: 参考IEC 62321:2008:(1) 用ICP-OES测定镉的含量.(2) 用ICP-OES测定铅的含量.(3) 用ICP-OES测定汞的含量.(4) 用点测试法/紫外-可见分光光度计比色法测定六价铬的含量.(5) 用GC-MS测定PBBs(多溴联苯)和PBDEs(多溴二苯醚) 的含量.测试项目: 限值单位MDL 001镉(Cd) 100 mg/kg 2 ND铅 (Pb) 1000 mg/kg 2 107汞 (Hg) 1000 mg/kg 2 ND六价铬(Cr VI) - - ◇Negative多溴联苯(PBBs)之和1000 mg/kg - ND一溴联苯- mg/kg 5 ND二溴联苯- mg/kg 5 ND三溴联苯- mg/kg 5 ND四溴联苯- mg/kg 5 ND五溴联苯- mg/kg 5 ND六溴联苯- mg/kg 5 ND七溴联苯- mg/kg 5 ND八溴联苯- mg/kg 5 ND九溴联苯- mg/kg 5 ND十溴联苯- mg/kg 5 ND多溴二苯醚之和(PBDEs) 1000 mg/kg - ND一溴二苯醚- mg/kg 5 ND二溴二苯醚- mg/kg 5 ND三溴二苯醚- mg/kg 5 ND四溴二苯醚- mg/kg 5 ND五溴二苯醚- mg/kg 5 ND六溴二苯醚- mg/kg 5 ND测试报告 No. CQTC1105237/CHEM 日期: 2011年11月30日 第3页, 共5页 测试报告七溴二苯醚- mg/kg 5 ND八溴二苯醚- mg/kg 5 ND九溴二苯醚- mg/kg 5 ND十溴二苯醚- mg/kg 5 ND备注:(1) 最大允许极限值引用自指令2011/65/EU 附录II.(2)◇＝a. Negative为未检测到六价铬,b. Positive 为检测到六价铬;针对金属表面的防腐涂层:由于未获知样品的存储条件和生产日期,样品的六价铬测试结果仅代表测试时样品的状态测试报告测试报告No. CQTC1105237/CHEM日期: 2011年11月30日 第4页, 共5页附件RoHS 测试流程图1) 分析人员：吕廷婷/杨伟/冯永超 2) 项目负责人：雷玉叶测试报告测试报告No. CQTC1105237/CHEM日期: 2011年11月30日 第5页, 共5页样品照片：此图片仅限于随SGS 正本报告使用*** 报告完 ***测试点。

超详细村田电感产品知识详解一、村田电感的分类二、村田电感产品阵容村田电感的品名表示法村田电感我们统称为是贴片电感，其主要含义是根据村田电感的形状及使用方法而来。

首先是因为它的样子是片状的，另外通常我们使用时是用焊接贴板的形式把电感焊贴在线路板上，所以我们称这种电感为贴片电感。

根据村田电感品名表示法如下：片状线圈：LQ H 32 M N 331 K 2 3 LLQ——表示型号：表示片状线圈。

H——表示结构：G—多层型（空气芯线）；H—绕线型（铁氧体磁芯）；M—绕线型（空气芯线）；P—薄膜型；W—绕线型（空气芯线）。

32——表示尺寸：在尺寸上分为0402，0603，0805，0806，1008，1212，1206，1210，1812，1515，2020，2220，2525；分别对应1.0*0.5mm，1.6*0.8mm，2.0*1.25mm，2.0*1.6mm，2.5*2.0mm，3.0*3.0mm，3.2*1.6mm，3.2*2.5mm，4.5*3.2mm，4.0*4.0mm，5.0*5.0mm，5.7*5.0mm，6.3*6.3mm。

M——表示应用与特性，代号—系列名—应用与特性：H—LQ—多层型空气芯线；N—LQM —谐振电路用；D—LQM—扼流用（小电流直流电源）；F—LQM—扼流用（直流电源）；M —LQP—薄膜型；T—LQP—薄膜型（低直流电阻型）；A—LQW—高Q值型（一般频率用）；H—LQW—高Q值型（高频率）；N—LQH—谐振电路用M—LQH—谐振电路用（涂层型）；D—LQH—扼流用；C—LQH—扼流用（涂层型）；S—LQH—扼流用（电磁屏蔽型）；H—LQH—高频谐振电路用。

N——表示类型：N/S---------标准型331——表示电感值：由三位数字表示，单位是微亨（uH）。

第一位和第二位数字是有效数字，第三位数字表示跟在前两位数字之后的零的个数。

如果有十进制小数点，由大写字母“R”表示。

電感檢驗報告
一﹑檢驗目的﹕
檢驗千如10±20%uH SMD電感是否適用于我司Air Reflow溫度
二﹑檢驗項目及方法﹕
1﹑取10pcs電感0.1V/3MH Z測其感值﹐是否在規格范圍內
2﹑用以上10pcs電感印錫膏﹐過Air Reflow﹐其溫度為230±5℃時間為5分鐘。

再測其感值﹐是否在規格范圍內
3﹑用過完Air Reflow的10pcs電感試做UMSOF3﹐測UMSOF3電氣是否在規格范圍內
三﹑檢驗結果﹕
1﹑過Air Reflow前感值數據
2﹑過Air Reflow后﹐外觀無斷裂現象
3﹑過Air Reflow后感值數據
4﹑試做UMSOF3﹐其電氣在規格范圍內
四﹑檢驗結論﹕
千如10±20%uH SMD電感可用于我司SMT作業。

對于產線上出現斷裂現象﹐是由于其手工焊接的人為因素所致﹐材料本身無問題。

电感器检验报告
一、概述
本报告旨在对电感器进行检验，评估其质量和性能。

以下是对电感器的检验结果和相应的建议。

二、检验结果
1. 电感器阻值检验：经过测量，电感器的阻值为X ohm，符合规定范围。

2. 电感器感抗检验：经过测量，电感器的感抗为Y H，符合规定范围。

3. 电感器频率特性检验：经过实验，电感器在各个频率下的响应均良好，无明显异常。

4. 电感器温度特性检验：经过实验，电感器在不同温度下的性能稳定，无明显变化。

5. 电感器耐压检验：经过测试，电感器的耐压性能良好，符合规定标准。

三、建议
根据对电感器的检验结果，我们得出以下建议：
1. 推荐将该电感器用于相关电子设备的制造和使用。

2. 建议定期对电感器进行维护和检验，以确保其性能和质量的
稳定性。

3. 如出现任何异常情况或性能下降的迹象，建议及时更换或维
修电感器。

四、结论
根据对电感器的检验结果和建议，在符合规定范围内的情况下，该电感器符合质量要求，并可以投入使用。

如有任何疑问或需要进一步的信息，请随时与我们联系。

以上为电感器检验报告内容。

如有需要，请随时参考。

谢谢！。

《电感检验报告》摘要：引脚变形，MAJ，0.5mm
报告部门：质检部检验类型：☐送样☐例行检验日期：20 年
月
日
审核：
检验员：
供应商
物料名称
批量
规格/型号
单号
检验数量
抽样标准
检验水平
严重缺陷(CR) AQL ：0.65 AC
主要缺陷(MA) AQL：1 AC
次要缺陷(MI) AQL：2.5 AC
RE
RE
RE
测试参数串联/关联
频率
Hz
温度
℃ 湿度
RH 检验项目检验内容及标准检验结果备注 CR/MA/MI 不良数/符合性不良率
外观包装料盒无变形、破损
MIN
电感本体无破裂
MAJ
引脚引脚变形
MAJ
引脚无氧化 MAJ
引脚无松脱
CR
引脚镀锡适量，应小于元件插件孔 MAJ
标识无丝印不清现象
MIN
标识正确 MIN
混料混有两种或两种以上 MIN 框架框架不应松动
MIN
功能参数可焊性
无上锡不良
MAJ
电感值
核对订单要求 CR
Q 值
核对订单要求 MAJ
线圈
线圈不能有开路短路
CR
尺寸线径
MIN
长
宽
高 3P.2P=8mm+_0.5mm
直径 2P/3P =6mm 0.5mm 判定
处理意见。

lq电感量程-回复电感量程是指电感计在测量电感时所能够接受的最大电感值范围。

在电路设计和电子工程中，电感量程的选择对于正确测量和分析电感元件的特性非常重要。

在本文中，我们将逐步回答关于电感量程的问题，并探讨如何正确选择合适的电感量程。

第一步：了解电感量程的概念和意义电感量程是指电感计在测量电感时所能够接受的最大电感值范围。

电感是一种基本的电子元件，它能够储存和释放电能，常用于电源滤波、阻抗匹配、信号传输等应用中。

在电路设计和测试过程中，正确选择合适的电感量程可以保证测量结果的准确性，并有效避免电感计损坏。

第二步：了解电感量程的单位和表示方法电感量程通常用亨利（Henry）作为单位，常见的表示方法有“H”或“mH”（毫亨）。

1H等于1000mH。

不同的电感计在量程选择方面可能存在差异，一些电感计量程可能仅为几个微亨到几千亨。

第三步：了解电感量程选择的原则正确选择电感量程需要考虑以下几个方面：1. 测量目标：首先需要明确要测量的电感数值范围。

电感计的量程应稍微大于待测电感的最大数值，这样可以确保在测量时不会超出电感计的范围，并且测量结果较为准确。

2. 测量精度：电感计的量程是影响测量精度的重要因素之一。

通常情况下，较大的量程对于小电感值的测量不如较小的量程精度高。

因此，在有限的条件下，应选择合适的电感量程以尽可能提高测量精度。

3. 设计需求：如果是在电路设计中使用电感，需要根据设计需求选择合适的电感量程。

如果测量值超出电感计的量程，可能会导致电感计损坏或测量数据不准确，因此在选择电感量程时需要谨慎考虑。

第四步：根据以上原则选择电感量程在选择电感量程时，可以按照以下步骤进行：1. 确定待测电感的数值范围，如0.1mH到10mH。

2. 根据测量精度需求选择电感计的量程，如选择一个量程为10mH的电感计。

3. 验证所选择的电感计量程是否适合测量待测电感。

如果待测电感小于电感计的量程，测量结果较为准确；如果待测电感接近电感计的量程上限，可选择使用更大量程的电感计进行测量。

一体成型电感q值标准
一体成型电感的Q值，也叫电感的品质因数，是衡量电感器件的主要参数。

它表示电感器在某一频率的交流电压下工作时，所呈现的感抗与其等效损耗电阻之比。

电感器的Q值越高，其损耗越小，效率越高。

对于一体成型电感的Q值标准，不同的应用和规格可能会有所不同。

一般
来说，高频线圈的Q值通常为50\~300。

对于调谐电路线圈，Q值有更高
的要求。

由高Q值线圈和电容器构成的谐振电路具有更好的谐振特性。

以上内容仅供参考，如需一体成型电感Q值标准的具体信息，建议咨询相
关行业专家或查阅相关行业规范。