FA1L3M-L中文资料

Flameproof MetalFilm ResistorsFA Series•Approval to BS CECC 40101-019 and 40101-024•Resistance range 0.1 ohm to 1M ohm •Flameproof protectionFA025FA05FA1FA94Power rating at 70°C watts 0.5 1.0 1.5 2.0Resistance range ohms 0R1 to 1M 0R1 to 1M 0R1 to 1M 2R6 to 1M0Limiting element voltage volts 350350500700Isolation voltage volts 5005007001000TCRppm/°C150Resistance tolerance %≤1 ohm: 5, 10 >1 ohm: 1, 2, 5Ambient temperature range°C-55 to 155General NoteWelwyn Components reserves the right to make changes in product specification without notice or liability. All information is subject to Welwyn’s own data and is considered accurate at time of going to print.© Welwyn Components Limited · Bedlington, Northumberland NE22 7AA, UKTelephone: +44 (0)1670 822181 · Facsimile: +44 (0)1670 829465 · Email: info@ · Website: Electrical Data* Approved CECC 40101-019 / 40101-024FX EX DX CX Power rating at 70°C watts 0.250.5 1.0 2.0Resistance range ohms 1 to 1M 1 to 1M 1 to 1M 10 to 100kLimiting element voltage volts 250350500700Isolation voltage volts 50070010001400**TCRppm/°C250Resistance tolerance %1, 2, 5Ambient temperature range °C -55 to 125Standard values E24 preferred Thermal impedance°C/watt1401109060Issue B · 03.02A subsidiary of TT electronics plc Welwyn Components145*These specificatios are identical except that BS CECC 40101-024 includes flammability tests.**Specification TCR - actual TCR as for commercial.LDfdDimensions (mm) &Weight (g)PCB Min.mounting bend Type L Max D Max f min d nom centres radius Wt.nom FA025 6.2 2.521.00.610.20.60.3FA059.0 3.619.60.812.7 1.20.5FA114.5 5.323.60.820.3 1.2 1.1FA9413.15.929.50.819.51.21.1Physical DataFlameproof Power Metal Film ResistorsFA Series© Welwyn Components Limited Bedlington, Northumberland NE22 7AA, UKTelephone: +44 (0)1670 822181 · Facsimile: +44 (0)1670 829465 · Email: info@ · Website: Issue B · 03.02Welwyn Components146Application Notes1.If the resistors are to dissipate full rated power, it is recommended that the terminations should not be soldered closer than 4mm from the body.2.Due to operating temperature limitations imposed by some pcb materials, derating may be necessary. An estimate of the temperature rise to be expected can be calculated using the thermal impedance figures given under Electrical Data.bf 1f 266cBody Location f 1 – f 2 ≤ 1.4 mmPackagingAll FA Series resistors are normally supplied tape packed ready for loading onto automatic sequencing and insertion machines.Component wires will not protrude beyond the outside edge of the tapes.Alternative packaging available by request.Lead Formed resistors can also be supplied. Standard options of Lancet, Radial and Goalpost forming are shown in Lead Form Information section.MarkingResistors are colour coded with 4 bands.IEC 62 colours are used.Solvent ResistanceThe body protection and marking are resistant to all normal industrial cleaning solvents suitable for printed circuits.FlammabilityThe resistors will not burn or emit incandescent particles under any condition of applied temperature or power overload.ConstructionThe resistance element is a precisely controlled thin film of metal alloy on a high purity ceramic core, protected by a cement coating applied so that terminations remain completely clear.This permits a well defined body length, (clean lead to clean lead dimension L).TerminationsMaterial Solder-coated copper wire.StrengthThe terminations meet the requirements of IEC 68.2.21Solderability The terminations meet the requirements ofIEC 115-1, Clause 4.17.3.2CECC 40101-019/40101-024Actual Performance RequirementsMaximumTypical Load at commercial rating: 1000 hrs at 70°C ∆R %not specified31Load at CECC rating: 1000 hrs at 70°C 221Load at 35% rated power: 1000 hrs at 125°C ∆R %210.7Dry heat: 1000 hours at 155°C∆R %not specified 10.7Shelf life: 12 months at room temperature ∆R %not specified0.50.5Derating35% of rated power at 125°Czero at 235°C Short term overload ∆R %0.50.20.02Climatic ∆R %20.50.5Climatic category ∆R %55/125/5655/125/56Long term damp heat ∆R %220.5Temperature rapid change ∆R %0.50.250.05Resistance to solder heat ∆R %0.50.250.07Vibration and bump∆R %0.50.10.01Performance DataTypeFA025FA05FA1FA94Large ammo pack 5000250010001000Standard Quantities Per PackageType b c FA025/FA05525FA16710FA947710。

Previous Page | Return to Index | Next PageQ-G® CORD PLUG CONNECTORS1. A(*)F CORD PLUG2. A(*)FD CORD PLUG3. A(*)M CORD PLUGClick above to download drawings (you will need to have Adobe Acrobat installed onyour system to do this).A(*)F CORD PLUGStraight female cord plug with standard latchlock. Available in 3-7 pin versions.A(*)FD CORD PLUGStraight female cord plug with FAS-DIS-CONNECT detent.A(*)M CORD PLUGStraight male cord plug.*Number of insert contacts or pins must be specified to complete part number. PART NUMBERS - FEMALE CORD PLUGSStandard Q-C® Cord Plugs, Series A(*)F and QGPSatin NickelFinishBlack Finish Fas-Dis-ConnectLarge FlexRelief2QCP Series Insert Contacts Silver1Gold1A3F A3FB A3FBAU¤A3FD A3FL QGP3223 A3FS3-----3 A4F A4FB A4FBAU¤A4FD A4FL-4 A5F A5FB A5FBAU¤A5FD¤A5FL-5 A6F A6FB A6FBAU---6 A7F A7FB A7FBAU---71 Contact plating.2 Accepts cables from .25 inch (6.35 mm) to .328 inch (8.33 mm) diameter3 Accepts cables from .105 inch (2.7 mm) to .205 inch (5.2 mm)¤Available on special order only; contact Switchcraft for price and delivery. PART NUMBERS - MALE CORD PLUGSStandard Q-C® Cord Plugs, Series A(*)F and QGPSatin NickelFinishBlack FinishLarge Flex Relief QCP Series Insert Contacts Silver GoldA3M A3MB A3MBAU A3ML QGP3233A3MS3----3A4M A4MB A4MBAU A4ML-4A5M A5MB A5MBAU¤A5ML-5A6M-A6MBAU--6A7M-A7MBAU--7All above part numbers have black flex relief installed. Contact Switchcraft for color flex relief.¤Available on special order only; contact Switchcraft for price and delivery.Previous Page | Return to Index | Next PageTo search a category please click on the corresponding icon:| Connectors | Jacks and Plugs || Patch Panels, Patch Kits & Jackfields | Cable Assemblies and Patch Cords | Switches | All products shown are covered by Switchcraft's limited lifetime warranty.| Switchcraft home |About Us | Products | What's New | Search | Contact Us。

3M胶带型号分类之阿布丰王创作1、3M双面光学透明胶带OCA：8142A、8212、8141、8161、8185、8187、9483、8172、8195、81972、3M导电胶带/3M导电纯胶膜9712、9713、9719、9703、9705、9708、9709；异方性导电胶膜：9719,9713、9703、9705、9708、9709、9709SL、7303、5303、7393、7379、7371、7376、7378、8794、5363、7313、7396、5552R等最新型号3MACF导电胶膜、异方性导电胶膜、异方性导电胶带、ACF胶带3、3M热熔胶膜:3M615,3M615S,3M615ST,3M406,3M583,3M688,3M690,3M690T,3M AF-111,3MAF-434、3M导热胶膜:3M8805;3M8810;3M8815;3M8820;5、3M导热垫片:3M9889FR,3M9894FR,3M9879Fr6、3M导热接口垫片:3M5516,3M5591,3M5591S,3M5592S,3M5595S,3M5589H,3M5590H 7、3M硅胶和亚克力双面胶带：9731,9731B,9731RW一面是硅胶,一面是亚克力胶8、3M遇水指示标签\质保和平安胶带：3M5557,3M5557NP,3M5558,3M55599、3M遮光胶带,3M黑白双面胶带55200H、55201H、6006H、6008H、9582H、9583H、4012-30、4012-50、4012-60、4019-50、4019-60、4019-85、4003C、4003T、4040、4007、4037,用于液晶显示器及背光模组3M遮光胶带,3M黑色双面胶带9004、9622、9632、936BK、9313B、9005、4362S、4363S、4364S10、3MVHB胶带：此系列产物可以广泛用于金属,塑料,玻璃,陶瓷等多种资料的架构粘结,如电子产物塑料部件的固定,夹层玻璃等.型号有：3MVHB胶带：3M4606,3M4608,3M4914,3M4941,3M4945,3M49513M4920,3M4930,3M4950,3M4955,3M4959,3M4926,3M4936,3M4941,3 M4956 ,3M4932,3M4952,3M49453M4950,3M4951,43M914,3M4941,3M4926,3M4032,3M4004,3M4008,3 M4016,3M4026,3M4432,3M4965,3M4116,3M4211,3M4229,3M5314,3M5925,3M4229P, 3M5314,3M4215,3M42103MF9460PC,3M F9469PC,3M F9473PC双面胶带11、3M双面胶带（两面相同胶粘剂）：3M 4801;3M 9009;3M 9019;3M 9077;3M 9475LE;3M 9492MP;3M 9495LE;3M 9495MP;3M 9609;3M 55230;3M55231;3M 55232;3M 55235;3M 55256;3M 55257;3M 55258;3M 55261;3M 55262;3MY9448,3M9495le,3m9690,3m 9009,3m 9019,3m 9079,3m9461p,3m 9485pc,3m 9482pc,3m 9460pc vhb,3m 9469pc vhb,3m 9473pc vhb,12、3M双面胶带(两面分歧粘剂)：3M9731；3M 4377-50；3M 4377-85；3M 9415PC；3M 9425HT；3M 942513、3M无基材纯胶膜：3M467MP;3M468MP;3M9663M7955MP;3M9079; 3M9082; 3M9085 ;3M9458; 3M9471LE;3M9472LE;3M9482PC;3M 9485PC;3M 9671LE;3M 9672LE;3M F9460;3M F9469;3M F9473,3M983214、3M医用胶带：单面薄膜胶带、双面胶带和转移胶带、无纺布和织造布胶带、水胶体胶带、泡沫胶带15、3M双面丙烯酸泡绵胶带：Y-4615/Y-4609/ 4618/462216、3M导电铜箔胶带：3M1181,3M1182,3M1183,3M1194,3MCU-35C,3M1245,3M1345,3M2245；17、3M PolymaskTM呵护胶带：3112/4178/511218、3M金属箔胶带：261/271/281/291/300PL/1115/1120/143619、3M高温屏蔽胶:3M851,3M1278,3M1279,3M5413,3M7414,3M5414,3M5419,3M5433 ,3M7413T/7413TL,3M7419,3M7413,3M7413D/7413DL,3M7412C,3M85 1ST,3M852ST,3M853Y,3M7411B;20、3M标签：7815/7816/7847/7613/7868/793021、3M水溶性胶带：906B/910/917B/9952/9969/997422、3M柔印贴版胶带：1015/1020/1115/1915/192023、3M电磁屏蔽胶带：3M300PL铝箔胶带；3M508SN铜箔胶带24、3M高分子资料概况滑爽胶带：5451/5480/5490/5491/549825、3MPET线路板电镀呵护胶带：331T/335/336/850/851/85326、3M波峰焊呵护胶带：5413/5419/7413/7413T27、3M玻璃布胶带：361/36728、3M遮蔽胶带：200/232/244/2308/2310/2364/269329、3M纤维胶带：8915/893430、3M薄膜开关隔片：7991MPW,7992MPW,7992MP,7993MP,7994MP,7995MP,7997MP,31、3M铝箔胶带：420；421；425；427；431；1446；155032、3M警示胶带/标示胶带：永久性标识表记标帜胶带：5700,5702,471；临时性标识表记标帜胶带：766；76733、3M超洁净极低释气单面胶带：极低释气性6670、极低释气烯6690、极低释气性6692、聚乙烯8333、极低释气性高剪切强度聚乙烯8439、极低释气性高剪切强度聚乙烯8439FL34、3M超洁净薄性胶带：产物型号：3M501FL、502FL、504FL35、3M洁净标签资料：产物型号有：3M5770（NF）,5771,5775,5776NF36、3M阻尼聚合物：3M110P02,110P05,112P02,112P0537、3M BumponTM和RollstockTM 脚垫：5012/5302A38、3M双面聚氨酯泡绵胶带：4016/4026/403239、3M双面聚乙烯泡绵胶带：4462/4466/4492/449640、3M双面聚氯乙烯泡绵胶带：4408/4416/443241、3M双面氯丁泡绵胶带：4962/4965/499242、3M双面无纺布胶带：9448/908043、防静电胶带：4044、3M夹片：7945MP/7956MP/7957MP/7993MP45、3M双面胶带：415/444/9495/9500/9690/973146、3M丙烯酸减震泡棉：3M5060-02,3M5060-03,3M5060-05,3M5060S-02,3M5060SR-03,3M5060SR-0547、3M双面导热胶带：9882/9885/989048、3M波峰焊呵护胶带：3m5413kapton,3m7413polyimide,3m8201kapton,3m8130kapton,3m 2142,3m24449、3M单面胶带：3M355,3M850B,3M5423,3M8915,3M9381L,3m 7993mp,3m 7997mp,3m 5453 ptfe胶带50、3M无纺布丙烯酸胶带：3m9075,3m6408,3m 9080,3m9448橡胶系双面胶51、3m呵护胶带；3M331t蓝色呵护胶带3m 8152电镀绿色呵护胶带52、3m测试胶带：3M610,3M600 透明胶带；3m 810半透明胶带53、3m双面胶带、绵纸胶带55230、55230H、55231、55235、5523654、3m双面胶带、PET胶带55256、55257、55258、55260、55261、55262、917855、3m优质乙烯胶带：471；472；474；477；4731；764；76556、3m电镀和阳极氧化：470；484；49557、3m聚乙烯胶带：480；481；481158、3m防黏贴概况和隔离纸拼接胶带：8901；8905；8402；8911；8952；8952L；895359、3m胶片拼接胶带：8421；8422；8429；844560、3m电路板制造胶带：851；1728；1280；1285；129061、3m铝箔/加强型胶带：363；1430；363362、3m减振箔：434；435；436；2552；63、3m阴极防护产物-锌水凝胶：472764、3m结构胶带：9244；9245；924665、3m热粘胶带：4237；5403；5404；5406；4233；5408；4974；498166、3m双面泡棉胶带：4004；4008；4016；4032；4052；4056；4085；4408；4416；4432；4921；4462； 4466；4492；4496；4965；4992；4658F等67、3m抗磨降低摩擦胶带：542168、3m电信电气绝缘胶带：3m 80T,3m88T,3m电缆芯线绑扎膜,3m 油灰胶带,3m DR胶带69、3M导电铝箔胶带：3M1120,3M1170;3M1172,3M1178,3M1267;3MAL-25BT,3MAL-50BT,3MAL-25DC70、3M电磁吸波资料：3MAB5000、AB6000、AB7000。

3M汽车售后产品市场部3M 专业汽车美容养护系列39系列整体美容解决方案Mar. 2009 © 3M 2009. All Rights Reserved. Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部课程内容汽车漆面经常遇到的损伤 如何正确、适当地养护汽车漆面 39系列汽车漆面美容处理及护理有哪些产品 39系列操作辅助工具介绍对比及羊毛轮使用保养 如何根据油漆表面正确选用产品 对于汽车原厂漆及新车漆面的美容养护处理介绍 （梦幻一号） 旧车及翻喷车的漆面养护处理介绍（梦幻二号）2 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§汽车漆面经常遇到的损伤日常损伤阳光中的紫外线会伤及漆面，加速漆面老化并形成氧化层 雨水中所含的酸性物质会腐蚀漆面 风沙、 风沙、粉尘等都会在漆面上留下微小的划痕 质量低劣的洗车液会加快漆面的腐蚀 干燥的气候， 干燥的气候，强烈的日晒和昼夜温差，都会使漆面出现裂纹 甚至，漆面与空气的直接接触也会使漆面缓慢氧化其他损伤车身表面与树脂、树胶、花蜜、鸟粪及其他各种物质的接 触，都会造成不同种类程度的损伤或腐蚀3 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§如何正确、适当地养护汽车漆面常规保养日常保护 —避免车辆长期暴露在恶劣的天气下(如曝晒，雨 淋，酸雨，风沙等) 经常清洗 —保持汽车表面的清洁，可以防止漆面出现由于污 物长期而导致的局部腐蚀及氧化等问题 打蜡 —汽车打蜡就像人涂润肤霜，可以有效地保持漆面的滋 润，预防漆面出现干裂等现象，打蜡还可以延缓漆面与空气 直接接触从而减缓氧化 抛光 —定期对汽车漆面进行处理，将漆面表层的划痕及氧化 层等处理掉，回复漆面的色彩和光泽 其他漆面保养方案 —选择封釉、镀膜及犀牛皮等长期保养方 封釉、 案来保护漆面，可以达到更好更长久的全面保护效果4 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§3M 梦幻漆面美容系列 施工产品汽车漆面美容专业施产品39004 - 3M 美容粗蜡(粗切削) 39001 - 3M 美容粗蜡(中切削) 39002 - 3M 美容粗蜡(细切削) 39003 - 3M 机器抛光蜡 39009 - 3M 镜面抛光剂(深色车) 39109 - 3M 镜面抛光剂(浅色车) 39007 - 3M 漆面保护手蜡5 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§3M 梦幻专业施工产品系列39004 美容粗蜡(粗切削)本产品是配合抛光机使用的专业漆面研磨 剂，能有效地去除1000号砂纸的砂痕和其他 未伤底漆之重度划痕以及严重氧化层 对于手工操作，请使用 3M 39002 美容粗蜡 (细切削)6 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§3M 梦幻专业施工产品系列39001 美容粗蜡(中切削)本产品是一种由配合抛光机使用的研磨剂， 它能有效地清除1200号砂纸的砂痕、中等程 度划痕、中等程度氧化层和水斑 如需须手工操作，请使用3M美容粗蜡(细切削)7 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§3M 梦幻专业施工产品系列39002 美容粗蜡(细切削)本品是 39 系列施工产品中用途最广泛的专业 漆面研磨剂，它能安全有效地清除1200号砂 纸砂痕甚至更细小的砂石擦痕，其它细小擦 划痕，中等程度氧化层，粗糙的螺纹斑或水 斑，使用后留下精美的表面；手工使用效果 特别出色8 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§3M 梦幻专业施工产品系列39003 机器抛光蜡本产品用于快速，高效清除小擦痕，使用后 会产生灿烂、鲜明的漆面，及独特的“水影” 效果； 为产生最佳效果，请配合抛光机及 3M 5713 黄色细羊毛轮使用9 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§3M 梦幻专业施工产品系列39009 镜面蜡(深色车)本品适用于清除深色汽车表面的微痕，旋涡 状痕渍，轻度氧化物及水斑，适于手工抛光 或机抛10 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§3M 梦幻专业施工产品系列39109 镜面蜡(浅色车)本品适用于清除浅色汽车表面的微痕，旋涡 状痕渍，轻度氧化物及水斑，适于手工抛光 或机抛11 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§3M 梦幻专业施工产品系列39007 漆面保护手蜡本品使汽车表面展现出鲜艳欲滴的色泽，具有 极好的填充性，手工操作施工便利，更可配合 5729 封釉镀膜专用海绵轮进行机器施工，可获 得更加均匀完美的施工效果，且效率更高12 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§ 3M 梦幻保养系列产品漆面美容增艳类 39116 - 3M 经典镀膜套装 39113 - 3M 封釉特级套装 39112 - 3M 高效水晶釉 39528 - 3M 钻石水晶硬蜡 39526 - 3M 水晶硬蜡 39026 - 3M 水晶乳蜡 39034 - 3M 汽车增艳蜡 三合一水晶蜡 39006 - 3M 三合一钻石乳蜡 39066 - 3M 三合一水晶乳蜡 其他 39016 - 3M 神奇抹布 1015 - 3M 无纺擦车布 39530 - 3M 聚氨酯打蜡海棉13 Mar. 2009 © 3M 2009. All Rights Reserved.内饰清洁上光 39040 - 3M 内饰上光蜡 39017 - 3M 塑料清洁剂 39010 - 3M 塑料润光蜡 轮胎清洁上光 39036 - 3M 轮胎强力清洁剂 39042 - 3M 轮胎亮还原剂 镀铬、 镀铬、铝件保养 39527 - 3M 镀铬金属抛光剂 39529 - 3M 铝合金抛光蜡 洗车 39000 - 3M 晶亮’智能’洗车宝 38070 - 3M 洗车泥Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§39116 - 3M 经典镀膜套装产品简介本产品含 3M 专利 T.H.V.(常温固化 小分子含氟聚合物) 配方，成膜致 密，不伤漆面，物理保护效果好， 且防污、防腐蚀效果极佳，套装中 更包含了车主两年内漆面保养所需 的辅料使用说明清洗并擦干车身(请勿于阳光直射处或高温漆面上使用本产品)， 依据车身漆面状况选择适合的施工流程 用震抛机搭配 3M 5729 专用托盘将本品均匀涂布在车身表面，待 表干后使用 3M 39016 神奇抹布擦亮； 新车首次施工时建议施工三层以达到最优的镀膜膜层的致密及厚 度，保护效果和寿命更佳14 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§39113 - 3M 封釉特级套装产品简介本产品含 3M 专利 T.H.V.(常温固化 小分子含氟聚合物) 配方，成膜致 密，具有滋润漆面、物理保护、防 污、防腐蚀等保护功效，套装中包 含了车主一年内漆面保养所需辅料使用说明清洗并擦干车身(请勿于阳光直射处或高温漆面上使用本产品)， 依据车身漆面状况选择适合的施工流程 用震抛打蜡机搭配 3M 5729 专用托盘将本品均匀涂布在车身表 面，待表干后使用 3M 39016 神奇抹布擦亮； 新车首次施工时建议施工两层以达到最优的镀膜膜层的致密及厚 度，保护效果和寿命更佳15 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§39112 - 3M 高效水晶釉产品简介本产品含 3M 专利 T.H.V.(常温固化小分子含 氟聚合物) 配方，成膜致密，具有滋润漆面、 物理保护、防污、防腐蚀等保护功效使用说明清洗并擦干车身(请勿于阳光直射处或高温 漆面上使用本产品)，依据车身漆面状况选 择适合的施工流程 用震抛打蜡机搭配 3M 5729 专用托盘将本品 均匀涂布在车身表面，待表干后使用 3M 39016 神奇抹布擦亮； 新车首次施工时建议施工两层以达到最优 的镀膜膜层的致密及厚度，保护效果和寿 命更佳16 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§39528 - 3M 钻石水晶硬蜡产品简介本产品富含巴西棕榈蜡成分，并含 3M 专利 A.S.F (Acrylic Silicone Fluoropolymer丙烯酸，硅 树脂，含氟聚合物) 配方，使保护蜡层不易 分解，长时间滋润漆面并保持漆面光亮如新、 抗紫外线、酸雨，光亮效果长达 30 次正常 洗车，并富含奶油芳香使用说明清洗并擦干车身(请勿于阳光直射的地方或高温漆面上使用本产品)， 用 3M 1015 拭车布折叠后将本产品薄薄一层涂于漆面，待蜡干并产生 白色薄蜡膜； 用 3M 1015 拭车布以适当力度画圈擦拭使产生光亮保护膜效果17 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§39526 - 3M 水晶硬蜡产品简介本产品含 3M 专利A.S.F (Acrylic Silicone Fluoropolymer丙烯酸，硅树脂， 含氟聚合物) 配方，使蜡保护层不易分解，长时间保持漆面光亮如新、 抗紫外线、酸雨，光亮效果长达20次正常洗车，并富含奶油芳香使用说明清洗并擦干车身(请勿于阳光直射的地方或高温漆面上使用本产 品)，用 3M 1015 拭车布折叠后将本产品薄薄一层涂于漆面，待蜡干 并产生白色薄蜡膜； 用 3M 1015 拭车布以适当力度画圈擦拭使产生光亮保护膜效果18 Mar. 2009 © 3M 2009. All Rights Reserved.Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§39026 - 3M 水晶乳蜡(持久型)产品简介本产品适用于各种漆面，不伤新车之光亮透明层, 耐UV紫外线，上蜡、显色、光滑、保护、防泼水、 防氧化一次完成，产生高光泽度，效果可保持1015次车使用说明手工上蜡： 手工上蜡：用3M 1015拭车布折叠后将品薄薄一层涂于漆面，待蜡 干并产生白色薄蜡雾； 用3M 1015拭车布以适当力度画圈擦拭使产生光亮保护 膜效果；机器抛光/上蜡:足量倒出蜡液并用抛光机均匀涂抹至施工部位，待蜡 干并产生白色薄蜡膜 用3M1015以适当力度画圈擦拭，或以抛光机配3M5725海 绵轮抛光至光亮保护膜效果19 Mar. 2009 © 3M 2009. All Rights Reserved. Technical Team from Automotive Aftermarket Division3M汽车售后产品市场部§39034 - 3M 汽车增艳剂产品简介能轻易快速恢复漆面色泽与质感。

中華人民共和國法定計量單位
品保課整理
摘自<常用法定計量單位>(中國計量出版社) 一﹑我國的法定計量單位包括﹕
1. 國際單位制基本單位（表一）
2. 國際單位制輔助單位（表二）
3. 國際單位制中具有專門名稱的導出單位（表三）
4. 由詞頭和以上單位構成的十進倍數和分數單位（表四）
5. 我國選定的非國際單位制單位（表五）
表一﹕SI基本單位
表二﹕SI補充單位
表三﹕具有專門名稱及符號的SI導出單位
表四﹕SI詞頭
表五﹕我國選定的非SI單位
二﹑常見非法定計量單位及其換算。

FEDERATION INTERNATIONALE F IS A Homologation No DU SPORT AUTOMOBILEJAPAN AUTOMOBILE FEDERATION A-5110A-035aHOMOLOGATION FORM IN ACCORDANCE WITHAPPENDIX J OF TH E IN TE R N A TIO N A L SPORTING CODEHomologation valid as from …4FEV. 1983 F I S AÎêfî#-f l H_________________________________________in group.F I S A f i i5^;u-r APhoto A Photo B--___1. D E F I N I T I O N S/^»101) ManufacturerM IT S U B IS H I M O T O R S C O R P O R A T IO N102) Commercial name(s) —Type and model T R E D IA1600 T U R B O, A212A103) Cylinder capacity___________1.597.5(1.597.5X 1.4= 2.236.5^104) Type of car construction□separate, material of chassish. x-r x—_______x xx xxunitary constructionS teel105) Number of volumes3 h > y (•_____1 06. Number of placesÆA_________________5YUTAKA KATAYAMA i-f F.I.S.A.J't;J •5U’^1'T0«0^âk AMITSUBISHI Modelm____A212A.No Homol ^^5 1 ^ QJ A F S K S-f-2. D IM E N S IO N S, W E IG H T/T MS 202) Overall length4,280mm±1%203) Overall width1,660, Where measuredi7imlLl% !0i|$®r1t A t the re a r axle center204)Width of bodywork:a) A t front axle1, 652mm± 1%b)A t rear axleÉ¥fà±com«: s o r t i1, 660mm±1%206) Wheelbase: a) Right ,t> r f —X f2b)L e ft;2,445m m"^ 1 %209) Overhang: a) Fron t:■^—><—'•‘>7875,b)R ear:m m IL 1 ^m m d b 1 %2ip)D is ta n c e(G)(s te e rin g wheel —■=ti£<G>( x t T U > 7',+> r f —rear bulkhead)h-)1,445mm± 1%3. E N G IN E/^>v^>(ln case of rotative engine, see A rticle 335(D-^- a’ffiiS^y.335JS#S B)on complementary form)301)Location and position of the engine: In c lin a tio n(L/R);O'_______________F r o n t, T r a n s v e r s a l, V e r t ic a l angle:.______O'303)Cycle304)Supercharging yes/ooc: type i^r b o c h a r g e riSfê ^(In case of supercharging, see also A rtic le334on com plem entary form)SiWffiît55334:S#S?.)305)Number and layout of the cylinders . _■><)>r—<nëd filt___________________4, I n-lin e306)Cooling systemL iq u id307)C y lin d e r cap acity : a)U n ita ry b)T o ta l ^c,1399. 5 a n31,597.5(1,597.5x 1.4 =c) Maximum to ta l allowed * : ♦ (T h is indication is not to be considered in G r.N)ef1 >o23. 0(1,623 . 0x1. 4= c m3(;o-5^[i r>\—rNicli=Ç-®? n>i:v')2, 272. 2)MITSUBISHI AOT5AA212A312)C ylin d e r block m aterial X 'I > r-r o iro nNo Homol.JAFii!2S-f-_A-5110313)S le e v e s: a) jow/no X i)-r c)Type:___x x x x x314)B o re,1CT-__76.9m m315)M axim um bore allowed77.5(T h is indication is not to be considered in Gr N) .mm T'NIc.’i#®?n’j.-v')316)S tro k eX h D —86.031 8)Connecting rod: a) M a te ria l3 + V 7 ■o -,K S teel b)Bigend typef ••/7z->S e p aratec) In te rio r diameter of the bigend (w ithout bearings)t' v 7z.'y KC0P92 (-<T'J > 7^^A)_________________________________48.0d) Length between the axes:3 > n ...31 9)Crankshaf t: a) Type of manufacturee)Minimum weight:(±0. 1 mm) f t f&f if t___________________b) M ate rial______In te g r a l S teelc) Q mouldedS k iS.e)Type of bearings■<T 7<nB^______stamped d)Number of bearings-<T u> _____________ P la inf) Diam eter of bearingsi;7iT)n-m._____________• Q.mm+0.2% g) Bearing caps m aterial'<T ')> 7ic-^ -, 7<7)ftn____C a s t-iro nh)Minimum weight of the bare crankshaft7 ^ > 7 X ^ 7 h____________________12,000-g320) Flywheel:7 7^ ,+.—y U a)M a te ria lWB______C a s t-iro nb)Minimum weight of the flywheel w ith s ta rte r ring') >r i r>f t7-7.f .7.>f —321 )Cylinderhead: a)Number of cylinderheads ■>i) > 7—•.. K>')> r—-./ L b)M aterialA lu m in u m a llo y.g323)Fuel feed by carburetor(s): a)Number of carburetorsb )Typef^ît_1D o w n-d ra ft c)M ake and modeli M IK U N I, 28-âüto5§S>MakeMITSUBISHI ModelA2I2A No Homo!.A -5110J A F S iS S-f-d) Number of rrixture passages per carburettore) Maximum diameter of the tiange hole of the carburettor exit porti f-r T'u___________________________________________28. 0 & 32.0f) Diameter of the venturi at the narrowest pointJ. 'J —S______________________________________21.0& 27.0n u n324)Fuel feed by injection:b)Model of injection system:a) Manufacturer:__________c) Kind of fuel measurement: I—imechanical i—i electronical i—i hydraulicalc l)P is to n pump yes/no c2)M eassurem ent of air volume yes/noc3)M easurem entof airmass yes/no 4) Measurement of air sppeed yes/noc5) Measurement of air pressure yes/no Which pressure is takenfor measurement ?barsd)E ffective dimensions of measure position in the throttle areae)Number of effective fuel outletsy _________________________f)Position of injection valves: i—i Inlet manifold i—i Cylinderhead/X;u«oû£ï I—I K'——.V Kg)Statem ent of fuel measuring parts of injection system325) Camshaft:c) Driving system^tb H^________a) NumberN o tch ed b e ltb) Location …T o p(Q H C)f)T y p e of valve operation__________R o c k e r d) Number of bearings for each shaft•S-i'-rT h I7)-<T i; > 5326)Tim in g: e)Maximum valve lift Inlet i''!y h B A A9 ^with clearance7 >; T 7 > X______Exhaust________7. 50. 150. 25327)ln le t: a)M aterial of the manifold ,,BA^* A lu m in u m a llo yb) Number of manifold elements—Ki u y > h <7)S[__________1 d) Maximum diameter of the valves_______38. 0f) Length of the valve______105.9c) Number of valves per cylinder1e) Diameter of the valve stemm m^<i\.yx-f° •0g)Type of valve springsm m X r 'j > H e lic a lm m^I'T O W O^328)E x h a u s t: a) Material of the manifoldb) Number of manifold elementsIe) Maximum diameter of the valves_____________________31.0g) Length of the valve/<;urc7)ft ?____________102. 5J A F2;iS S-f-C a s t-ir o nd) Number of valves per cylinder1f) Diameter of the valve stemf f l i B-’'VuT’xr^eoS___________________8.0h)Type o f valve springs/''VwT'xr'j > H e lic a l330)Ignition system: a)TypeB a tte ryb) Number of pi ugs per cylinder!>•>;>r-% ') (n-T7 r<ntL________________i. 333)Lubrication system: a)Type ,c) Number of distributorsr-f xh ')______ b) Number of oil pumps4. F U E L C IR C U IT/40l)F u e l tank: a)Number3ÏC_______________tc)M aterialS teel b) LocationUS______U n d er the r e a r flo o r behindth e r e a r seatd) Maximum capacity505. E L E C T R IC A L E Q U IP E M E N T/501 )B atte ry(ies) : a) Number,< .y -f II—1________________6. D R IV E/IE»*601)D riv in g wheels:frontIF I□rear?â602)C lu tc h: b)Drive systemc) Number of platesf' < X 7 <na__________1M e c h a n ic a l/HL'TOWO^603)G e a r-b o x: a)Locationi f x-y7 X {iïS______A tta c h e d to engine in engine c o m p a rtm e n tb)(Manual)make________M IT S U B IS H I c) <Automatic>makex x x x xd) Location of the gearleverh«oCïs_____________ e)RatiosA'A-itf)G ear change gate>y I-F lo o rManual /^■------AdditionalG.IF o w e r1_Econ,om y 3./ratio it number ofteethÉB fâL_JZoc>.(/)ratioitnumber ofteethIs «X—wk_JCuc>sU)ratioitnumber ofteethtfrW.ts«xQk.Xuc>s14.233613X 3. 273613X22.373120X 1.833120X31.4726X 1. 142526X4 1.112129X0.862129X5----R4.1126 3513 ^ 263. 1826 3513 ^26Cons­tant.1.55 112919M S2622©o©o oooo ©0©®ÔÔÔÔ604)0v e rd rlv e :a) Type (R e f: A d d itio n a l In fo rm a tio n)x x x x xb) Ratiox x x x xd)Usuable with the following gearst-'<- K7>f___________c) Number of teeth_________x xx xx x x x x xF.I.S.AL‘f l'Makèèîi«MITSUBISHI Mode!A212ANo Homol..A-5110J AFfiUS-t605)Final drive:7 T K 7 ^ T"Front / BÎI Rear /f ta) Type of final driveH e lic a l xx x x xb)Ratio3.47x x x x xc)Teeth number«ft52/15xx x x xd)Type of differentiallimitation (if provided)x x x x x x xx xxe) Ratio of the transfer boxh 7>X7T-19j«iiltx x x x x606) Type of the transmission shafth-y> 3D r iv e shaft w ith constant v e lo c ity jo in t7. S U S P E N S IO N/>701)Type of suspension: a)F ro n t /Independent M c p h e rs o n w ith c o il sp rin gb)rear /ft Independent tr a ilin g arm. w ith c o il sp rin g702)H elicoidal springs: Front: yes/rter Rear: yes/«ocft703)L e a f springs:•j—7xr>) > r/noFront:ifiiR ear:' :jtes/noft704)Torsion bar: Front: jüjftî/noh —i-3x r ij > T' a t j Rear: jpes/no ft705)Other type of suspension:See photo or drawing on page 15x x x x xMakéM ITSUBISHI ModelA212A No Homo! ^*5^ ^ QJ A FiiîS§-(§-__________________________707)S h o c k Absorbers:■>3■y9r r v'<-a) Number per wheel1 ,+.>f —Front /HÎRear /a 11b)TypeB it T e le s c o p ic T e le s c o p icc)Working principleH y d ra u lic H y d ra u lic8. R U N N IN G G E A R: /Æîr^îl80l)W h e e ls: a)Diam eter Front'JAg ffi 13 ”/330 803)B ra k e s: a)Braking system Rear13330H y d ra u licb) Number of master cylinders -7X9—'j «oa T a n d e m b1 )Boret KT23.8-23.8c)Power assisted brakes■t—7,f Ad)Braking adjuster—A-'i U9 —e) Number of cylinders per wheel :1—/i-ê ') ^ > 'I > r—cnsi_______e l )Bore;tC T—_________________________________f)Drum brakes:K viT'u —iffl)ln te rio r diameterf2)Num ber of shoes per wheelf3)B raking surfacef4)W idth of the shoesg) Disc brakes:g l)N u m b e ro f pads per wheel1 .-r.'f —') h'goa________g2)Number of calipers per wheelI .-r. ^ — ;uê ') <^if >- ■)yes/iaayes/nac l)M a k e and typeêttâ >B it J ID O S H A K IK I, V a cu u md1 )Locationtais D a s h b o a rd in the engine c o m p a rt-m e n t Front /b5Rear /ià1154.0m m17.5m mx x x x mm(± 1.5m in)mmf± 1.5mm)x x x x2XXXX 7a n^223.212an^x x x xm r n35.0m m2XXXX1x x x xMakeèîi€M ITSUBISHIModel S ïî___A 212ANo Homo!jK - 5 1 1 0J A F i i îS S ^Caliper materialFront / idRear / a C a s t-iro nx xxx Maximum disc thickness 18x x x x Exterior diameter of the disc 242 /-f - \m m 1 J. 1 m m Jx x x x /O. . Nm m V-L 1 m m ;Exterior diameter of theshoe’s rubbing surface 240m mx x x x Interior diameter of the shoe’s rubbing surface 146m m x x x x m m Overall length of the shoes 116m mx x x xm mVentilated disc -<> -f u —■f -V Kf'^ X 7yes/janyes/noc m 2) Braking surface per wheel 1 .t.-f — as569. 65,h) Parking brake:h 2) Location of the leverB etw een the fro n t seath i ) Command system____________C ableh3) On which wheelsRear804) Steering:x t T >j > ra) TypeR a c k 8t P in io n îâR e a r1 = 19.1c) Power assistedysa/no^'•7-x t t ')>r9. B O D Y W O R K901 ) Interior:902) Exterior:a) Ventilationyesy 6ctob) Heatingt -f -f) Sun roof optional ifs s jn o f 1) Typef 2) Command system________________XXXX _________yes/xfox xx xg) Opening system for the side windows : Front :/fff M a n u a lv-yf h-'y'O R e a r :/« M a n u a la) Number of doorsKT-<r)&_______4________c) Door material:b) Rear tailgatef —/u-r— hFront :/Sï_ R e a r :/^_j^ec/no S teel S teela/ttt’c tt-d tc u t Model ^ÆITSUBISjHI•^212A N o Homol.A-5110d) Front bonnet material7o>S teele) Rear bonnet /tailgate material1-/T-;u r-S te e lf) Bodywork material S teelg) Windscreen materialy u>Y ÿ'( > h'l^WSG lass (L a m in a te d)h) Rear window materialS a fety glassi) Rear quarter lights material x xx xk) Side window material Front/ati S afety glass Y’7-0Y<r>ti'S S.Rear/î4 S a fetv el ass1) Material of the front bumper7n> h S teelm) Material of the rear bumperS te e lC O M P L E M E N T A R Y IN F O R M A T IO NA r t321 e) A n g le betw een the cLxis of the in le t v a lv e and theo u tle t v a lv e: 23°A r t605 b) R a tio: 3.19c) T e e th n u m b e r: 51/16/\L'TO W O^MITSUBISHI ModelA212A No Homo!.A-5110J AFSiSS-t.P H O T O S/Engine /C) Right hand view of dismounted engine D) L e ft hand view of dismounted engineL/-i> i'*f f i^ m m m1%“E) Engine in its compartment F) .Bare cylinderhead. ♦y-l/Fh'•* «y.*. ^r>----<T L aÎ- ,^.'S£i'/IL'T0M\05!^MaVeM ITSUBISHI Modelss:A212A No Homol.A-5110J A F5i S#-t_G ) Combustion chamber H)C arburetor(s) or injection systemÊL)Inlet manifoldV T ——/U KT ran sm issio n/S) Gearbox casing and clutch bellhousing J) Exhaust manifoldX^'/—X h—KOUTLET D IAMITSUBISHI Model___A212A No Homo!.-5110Suspension /3^T) Complete dismounted front running gearJ AU) Complete dismounted rear running gear lôîtH L tz ') -1*—jËîrSS—^a f iRunning gear /æit IîsV) Front brakes 7n > h r u —Bodyw ork /*<* X) Dashboardr-v i-i.-n- KW)R ear brakes0-^—7'1^ —J f-Y ) Sunroof7M h't'Make MITSUBISHI Model___A212A D R A W IN G S/Engine /No Homo!. 11Q j A Fûi;.§f-________________I Cylinderhead inlet ports, manifold side(tolerances on dimensions:— 2%, +A-%)>-') >r-'f 'y r-9^-- h , —-2%+4%)032II Inlet manifold ports, cylinderhead side(tolerances on dimensions:—2%, +4%)-29é+4%)•y K lni Cylinderhead exhaust ports, manifoldside(tolerances on dimensions:-2%,+4%)X'J .y r--y K:r-^‘/—X. F F .-7^* —;U K W-2%-f 4%)IV Exhaust manifold ports, cylinderheadside (tolerances on dimensions:-2.%,+4%)i^'/—X F-T’—T ti—J i. F'.+r— F , X —--y Kill!(^S£S:-2%+4%)MakeMITSUBISHI Model A212A No Homo!.A-5110èîtS.Suspension JAFiiîSS-^.XVSuspension system according to a r tic le705or replacing photos T and U.«§705l i CÉV'S l t LT<n-4-X-^> •> a >*2x x x x xA L’T O V!A -5 11 0FEDERATION INTERNATIONALEF I S AHomologation NoDU SPORT AUTOMOBILEJAPAN AUTOMOBILE FEDERATIONGrcJ A F £:U §-fMakeM IT S U B IS H I M O T O R S C O R P.ModalA 2I 2AInterior dimensions as defined by the Homologation Regulations.///B (Height above front seats)965G (Width at front seats)1215D (Height above rear seats)950E (Width at rear seats)1335F (Steering wheel — brake pedal)(x r T I) > —/I- —___666m mG (Steering wheel — rear bulkhead) 1445(X t T U K )_____________HF +G =2111>^L'T0W0?-'5M&keMITSUBISHI Modelss:___A212A No Homol. A "5110No E x t.____________________JAF£;îSS-ç-_Page or ext.A rt.DescriptionH i E i£6603G e a r-b o xI A D D IT IO N A L IN F O R M A T IO N*£U»e l«U e U-U* ^e l e O e e t-U* U»eL.UU U U elJTl.n—-r^«T**r«n t--r-»»-r*^2p3p1. G e a r-b o xT h e illu s tr a tio n s of the 4x2g e a r-b o x a r e d e s c rib e d b e lo w.E n g in e c r a n k s h a ft^Speed changeC o n tr o l ro d jif^E/P ch an g in g c a b leD r iv e s h a ft^4 speeds ch anging le v e rE/P ch an g in g le v e r{ii;/ F.I.S.A.■5^2!22S2^H o w to o p e ra te th e 4x2g e a r-b o xS h ift th e le v e r w ith the c lu tc h b e in g r e l e a s e,b o th w h ile th e c a r is stoppedo r ru n n in g.. * E c o n o m y ...F o r ru n n in g o v e r p av ed ro a d s.ttti’P o w e r F o r s ta r tin g on a n u p h ill, riin n in g o v e r a ro u g h ro a do r in a m o u n tan e o u s a r e a w h ile p a r t ic u la r t r a c tio np o w e r is re q x iire d.FEDERATION INTERNATIONALE F I S A Homologation NoDU SPORT AUTOMOBILEJAPAN AUTOMOBILE FEDERATION^A -5 1 1 0J A F 2r l2r /u —r J AF5£?;!i^^ HVehicle 1mmA D D IT IO N A L H O M O L O G A T IO N F O R M F O R T U RB OC H A R G EDE N G IN E S.-K -f r —X-r—> ■>'>Manufacturer Model and type T R E D IA 1600 T U R B OM IT S U B IS H I M O T O R S C O R P. A 212A ___________•Homo logation valid as from Bin groupATurbocharginga )Make and type of the turbochargerIvU T S U B IS H I (H. I. ) T u rb o c h a rg e rb ) Turbine housing;b l ) Number of vanes f —h '^—vcof t ______Noneb 3) Number of exhaust gas entriesb 2) Fixed vanes Q Adjustable vanes [n b 4) Dimensions of entriesAnco-ti£39. 5 m mC ) Turbine wheel:C 2) Number of blades12C l ) Materialn n _____C 3) Outer diameter of exit of exhaust gasÿ<F^^xtha<7)^C a s tin g I r o nSo4) Height (s) of bladeS,cn^^_______7^- 12.5C 5) Thickness of biadé«ûoifÿ_______0. 4 _ 1. 2m m m m0 6) Indicate the dimensions A, B, C, D according to the following sketch;TEai^SÉv.,A = ^40m mB = ^47C =.=m m 10. 4m m6. 7d )Impeller wheel:'f >-^7—*-f —d 2) Number of blades_________L6_Exitd l ) Materialn wA lu m in u m A llo yd 4) Height (s) of blade-11.2d 3) O utlet diameter at air intake2^I|XADcr){l35m md s ) Thickness of blade0.4- 1.2d s ) Indicate the dimensions A, B, C, D according to the following sketch;_ éA ______B = ^49 C =D =36. 6m m14. 37m m4. 23F.I.S. A.EN TERMakeMITSUBISHI Model52^____A212Ae)Pressure regulation:61)Type of pressure adjustment: i—i by-passL x J62)Indicate the type of the valveSw ing v a lv e Homologations NA-511 0□relief valvei; ij_7,<,u7'□other casef)Exchaust system:ix X r i.f 1 ) internal dimensions of exhaust pipes at turbine connection (sketch)g) Cooling of intake air IPHOTOSk) Plan view of compressor L) Front view of compressorf — —-r—<75JEMMaka- ModelM IT S U B IS H I_______A212A Homclcgations No ^"5110 M) Side view of compressorN) Turbine housing of compressor —i?-r—0) valve and by-pass installation of compressor P) Exhaust between the manifold and theafêŒIBSSa turbocompressor«Q)Compressor-housi ngMITSUBISHI Model52ÏC A212A Homologations NoA - 5 11 0DrawingsV ) Exhaust gas entry in the turbocompressor turbine 9 —7(r>mf<.iî7.K.u VI) Exhaust gas exit of the turbocompressor turbineVn) Air (gas) entry in the impeller housing of the vm) Air (gas) exit of the impeller housing of the compressor 3y An compressor n'y-r v7<r>-^'^^ul O•r o SECT.A-/A1_Iin l e t MANIFOLQ. INLFT MINIFOLD •IX) Device regulating the turbocharging pressure.WASTE GATE VALVEWASTE GATE ACTUATORMakeM ITSUBISHI Model223t___A2I2A No Homo!..No Ext.A-5110JAFûE#-f-_DescriptionPage or ext.Ar t.msPhoto T u rb o ch arg eW e take a photo Qf r o m this sideC o m p re s s o r-h o u s in g is b u iltin in le t m a n ifo ldF.I.S.A.SECTION A-AFEDERATION INTERNATIONALE DU SPORT AUTOMOBILE JAPAN AUTOMOBILE FEDERATIONt t SüAJ A TA-- 035 ER1/1H1983^ 4 Æ 3OS F IS A Homologation NoA’S//c^Extension No0 1/ 0 1E RF O R M O F E X T E N S IO N T O T H E O F F IC IA L F IS A H O M O L OG A T IO NF I SI I E T Normal evolution of the type: as from chassis numberI I V F Supply variant /ttfêsesI I VO Option variant /3ER Erratum /î^SiliEHomologation valid as from ÛEÎÏffB____________________-1mi1983in groupF I s A r/u-rManufacturerMITSUBISHI MOTORS GPRQ,Model and typeA212A TREDIA 1600 TURBOPage or ext.Art.DescriptionJ S g£ i$1iOld Correcti on Page 3319 f)61.057.0y u t a k a k a t a y a m aAUTOK'.O^Make MITSUBISHI êît€____------------------Model TREDIA 1600 TURBO'A212A______________No Homol. ^5^ ^ ^01/ 0 1E RNo E xt.JAFSîiï* J A~ 035 E R 1/l ADDITIONAL INFORMATIONPage or ext.fZltrSS.DescriptionE i£Plane metal\Thickness 2mmA= B -4mmo ld dimension was inner diameter of bearing cap. New dimension is outer diameter of crank schaft.m o wFEDERATION INTERNATIONALEF IS A Homologation NoDU SPORT AUTOMOBILEJAPAN AUTOMOBILE FEOERATiON4±a ;£A a 4^i Ü)-^3ÎSA-5110Extension NoJ A -035 E R 2/2 1 9 8 5^ 3Æ3 1B0 2 - 0 2 E RF O R M O F E X T E N S IO N T O T H E O F F IC IA L F IS A H O M O L OG A T IO NF I SI I ES Sporting evolution of the type / xtr—-yiiit I [ e T Normal evolution of the type /I I V F Supply variant / CrfèSiS II VO Option variant / ^7'i^3>-3C S[XI ER Erratum /-1 J I)1L 1985Homologation valid as fromin groupF I S AAManufacturer__________MITSUBISHI MOTORS CORP.Model and typej .__________TREDIA 1600 TURBO (A212A)Page or ext.Art.:l§Description334 h)ADDITIONAL INFORMATIONCooling of the intake air Intercooler ExchangerCooling of the turbo by water Water injectionINo No No NoI'/fl.urnTFEDERATION INTERNATIONALEDU SPORT AUTOMOBILEFICHE D'EXTENSION A L'HOMOLOGATION OFFICIELLE FISA FORM OF EXTENSION TO THE O FFICIAL FISA HOMOLOGATIONHomologation N°A -5110Extension N°0 3 /0 3 E f□ES Evolution sportive du type / Sporting evolution of t he type □ET Evolution normale du type / Normal evolution o f the type □VF Variante de fourniture / Supply variant□VO Variante option / Option variantS ER Errata / ErratumHomologation valable dès le Homologation valid as from_ConstructeurManufacturer________1er Jan vier 1988en groupe. in group _MITSUBISHIModèle et type, Model and type T re d ia1600 T u rb o A212APage ou ext. Page or ext.Art.Art.DescriptionDescriptionSuite au changement du coefficient de suralim entationporté de (1.4)à (1.7)à p a r tir du 1er Jan vier 1988 ;A rticles 103 et 307b1597.5 X1623 X2715.752759.1A rtic le 307c :^.I.S.A.Page 1/FÉDÉRATION INTERNATIONALÉ DÉ L’AUTOMOBILE JAPAN AUTOMOBILE FEDERATION (J A F)Bt iePRODUCTION CERTIFICATE^^i l*M anufacturer Car ModelDatem T S U B IS H I M O T O R S C O R P a 1O C T O R B E R, 1982A212AType orcomm ercial dseignatlonT R E D IA T U R B OProduction period from M onthly productioni...Jan u a ry, 1982.........^731tot, 1.9..8.2.1hereby certify that the production mentioned hereabo-ve concerns cars which are entirely com pleted, identical and in conform ity with the recognition form submitted fo r the said model.|g^natureT ad asu W akePositionmmsLm G e n e ra l M a n a g e r t-P ro d u c t P la n n in g D ept.M o n th/y e a r Number1J a n u a ry, 19825132F e b ru a ry.10413M a r c h,4154A p r il,,8575M a y,543 -6June,8527J u ly,8358A u gust,7889101112TOTAL5844 Remarks:aJAPAN AUTOMOBILE FEDERATION (JA F) il。

Mass Flow MeterProduct ManualAFM3000FeaturesLow pressure dropFlow range: +/- 200 slm (bidirectional) Accuracy 1.5% m.v. (typical)Very fast update timeFully calibrated & temperature compe-nsatedLow zero driftProduct SummaryThe AFM3000 sensor is Aosong’s digital flow meter designed specificallyfor ventilator applications. It measures the flow rate of air, oxygen andother non-aggressive gases with superb accuracy. A special design of the flow channel results in the very low pressure drop through the flow body of the sensormaking it extremely suitable for very demanding applications, such as medicalventilation and respiratory applications.The AFM3000 operates from a 5 Voltsupply voltage and features a digital I2C interface. The measurement results are internally linearized and temperature compensated.The outstanding performance of thi s sensor is based on Aosong’s sensortechnology,which combines a thermalsensor chip and a high-performance integrated 24-bit AD acquisition CMOS microprocessor. The flow rate of the gasis measured by a thermal sensor element which assures very fast signal processing time and bidirectional measurement with best-in-class accuracy.ApplicationsMedical、Process automation、Burner control、Fuel cell control、Spectroscopy、Envi ronment monitoring、LaboratoryOEM industry customization and solutionsOur company is committed to research and development of various sensors, with professional R&D laboratories and equipment, supporting a variety of simulation en vironment experimental conditions, to create high-quality product production and inspection process.The AFM3000 is one of the chips independently developed and manuf actured by our company. The flow range and independent flow channel structure ca n be customized according to the applicati on site and customer needs. Aosong profe ssionally provide customers with complete application solutionsContent1. Sensor performance..................................................................................................................................... - 3 -2. Sensor electrical characteristics ................................................................................................................ - 4 -3. Sensor communication ................................................................................................................................ - 4 -3.1 I2C communication interface characteristics and timing.............................................................. - 5 -3.2 Sensor data collection ....................................................................................................................... - 5 -3.3 Read device ID ................................................................................................................................... - 6 -3.4 Reset command.................................................................................................................................. - 6 -3.5 AFM3000 I2C command definition................................................................................................... - 6 -3.6 AFM3000 CRC calculation routine .................................................................................................. - 7 -3.7 Flow conversion formula ................................................................................................................... - 7 -4. Pin definition .................................................................................................................................................. - 8 -5. Typical circuit ................................................................................................................................................. - 8 -5.1 Typical circuit connection .................................................................................................................. - 8 -6. Dimension（unit:mm）................................................................................................................................ - 9 -6.1 AFM3000 dimension .......................................................................................................................... - 9 -6.2 Machinery parts .................................................................................................................................. - 9 -7. Model list ...................................................................................................................................................... - 10 -8. Precautions.................................................................................................................................................. - 10 -8.1 Calibration direction ......................................................................................................................... - 10 -8.2 Inlet flow conditions.......................................................................................................................... - 10 -8.3 Temperature compensation ............................................................................................................ - 10 -8.4 Processing ...................................................................................................................................... - 11 -8.5 ESD.................................................................................................................................................. - 11 -9. Accuracy statement .................................................................................................................................... - 11 -10. Important notices ...................................................................................................................................... - 11 -1. Sensor performance11Unless otherwise noted, all sensor specifications are valid at 25°C with Vdd = 5V and absolute pressure = 966 mbar.2 The range of AFM3000-200 models is ± 200slm, other models are shown in Table 10.3 In standard liter per minute at 20°C and 1013 mbar4With ideal inlet and outlet conditions, at VDD = 5V, 25°C, absolute pressure = 966 mbar5 Including offset, non-linearity, hysteresis6 Sensor position horizontal (see Section 8.1)7Span or offset value, whichever is larger8Shift due to temperature variation compared to calibration temperature2. Sensor electrical characteristicsElectrical characteristics，such as sleep power consumption, measurement power consumption, etc., all depend on the power supply.The table 3 details the electrical characteristics of AFM3000.If not marked, it means that the power supply voltage is 5V.3. Sensor communicationAFM3000 sensor adopts standard I2C communication protocol to adapt to various devices. The protocol uses two data lines: serial data bus (SDA) and serial time bus (SCL). The two internal data lines have been connected with 4.7K pull-up resistors to VDD . Multiple sensor devices can share the bus; but only one host device can appear on the bus. The sensor I2C address is 0x40, the I2C read command is 0x81, and the I2C write command is 0x80.If the SCL and SDA signal lines are parallel and very close to each other, it may cause signal crosstalk and communication failure. The solution is to place VDD or GND power signals between the two signal lines, separate the signal lines or use shielded cables Wait. In addition, it is also possible to improve the integrity of signal transmission by reducing the SCL frequency. The sensor needs to beled out, then a 100nF decoupling capacitor should be added between the positive and negative power supply pins for filtering. This capacitor should be as close as possible to the sensor.3.1 I2C communication interface characteristics and timingIn the I2C bus, the AFM3000 sensor as a slave device supports a communication rate up to 400kHz bit rate. When the host sends a start signal (low level), the sensor starts to communicate. When the host sends a stop signal (high level), when the communication ends, the start and end signals are only valid when SCL is high.Fig1：I2C Timing23.2 Sensor data collectionAfter the self-test of the AFM3000 sensor, data will be collected in 10 ms cycles. At the end of a measurement cycle, the data output register will be refreshed. Users can collect flow data through flow collection instructions, which are defined as follows:3.3 Read device IDEach AFM3000 sensor has a unique ID with a length of 32 bits, and the device ID query instruction is defined as follows:3.4 Reset commandWhen the user needs to reset the AFM3000 sensor, the software can be reset by sending the following command:3.5 AFM3000 I 2C command definition23.6 AFM3000CRC calculation routineAFM3000 sensor CRC verification uses CRC8, the initial value is 0X00, the polynomial is 0x1313.7Flow conversion formulaThe flow results need to use the following formula to convert the measured value:Flow [slm] =Measurements – Offset Flow CoefficientExample: The offset of AFM3000 is 32000, the air flow coefficient is 140, the measured value read by I2C is 33400；Flow [slm] =33400 – 32000= 10 slm 140Please note that the first measurement performed directly after chip initialization is invalid.4. Pin definitionFig2: Sensor pin layout5. Typical circuit5.1 Typical circuit connectionNote: The recommended resistance value of R1 and R2 is 10KFig3：Typical circuit diagram6. Dimension（unit:mm）6.1 AFM3000 dimensionFig4：Flow sensor dimensionsNote: If the AFM3000 sensor is directly soldered on the PCB, it should not be soldered by reflow soldering or soldering, otherwise the sensor may be damaged.During the soldering process, the sensor port must be protected to prevent the solder from splashing and damaging the sensor6.2Machinery partsThe accessories of the AFM3000 sensor comply with the international standard ISO5356-1: 2004.Detailed information about this type of connection can be found in the standard description. T o minimize the risk of accidental disconnection of the connector, a latched connector can be used, or an O-ring can be inserted into the groove, and a pipe with an inner diameter of 23 mm can be connected to the AFM3000.d1=19mm d2=2mmSection of recommend O-ring7. Model list8. Precautions8.1Calibration directionAs shown in the figure below, calibrate the sensor horizontally:8.2Inlet flow conditionsIn order to provide good flow conditions, the inner diameter of the connecting pipe has to be approximately the same as the inner diameter of the AFM3000 main channel. The inlet pipe must be straight and at least 10 cm in length. AFM3000 installed grids at the inlet and outlet of the flow channel to reduce turbulence and improve stability.8.3Temperature compensationAFM3000 sensor has digital temperature compensation. The temperature is measured by the on-chip temperature sensor on the chip and then fed back to the sensor processing chip.Therefore, no external temperature compensation is required.8.4 ProcessingThe AFM3000 sensor is sturdy and shock resistant. However, the accuracy of the high-pre cision AFM3000 may be reduced due to improper operation. Aosong do not guarantee normal operation in case of improper handling. Note: Avoid any mechanical stress on the solder joint s of the sensor during PCB assembly or due to PCB assembly.8.5 ESDAFM3000 will be exposed to sunlight or strong ultraviolet radiation for a long time, the performance will be reduced, and the casing will be aging.AFM3000 meet the following anti-static standards:- AEC-Q-100-002 (4kV HBM)- AEC-Q-100-003 (200V MM)Although the sensor meets these specifications, it does not mean that the sensor itself is compatible with ESD. When installing the sensor, please place it in an anti-static tray to prevent electrostatic discharge. In order to avoid damage to the sensor, personnel need to wear an electrostatic bracelet or wear insulated gloves before touching the sensor.9. Accuracy statementThe AFM3000 sensor is strictly calibrated in accordance with the AS-WI-RD3370 precision measurement guidance document. The performance of the sensor under other test conditions is not guaranteed and cannot be used as part of the sensor performance. Especially for the specific occasions requested by users, no commitment is made.10. Important notices1. Do not use this product as safety or emergency stop devices or in any other application where failure of the product could result in personal injury (including death). Do not use this product for applications other than its intended and authorized use. Before installing, handling, using or servicing this product2. Please consult the datasheet and application notes. Failure to comply with these instructions could result in death or serious injury.3. Based on the information provided by our suppliers, the materials used in this product and raw materials are harmless to the human body. Aosong has not verified this information through third-party analysis.4. For any application using this product, expressly reject any and all responsibilities, including but not limited to consequential or incidental compensation.Mouser ElectronicsAuthorized DistributorClick to View Pricing, Inventory, Delivery & Lifecycle Information:S eeed Studio:101990660。

252ADF300L系列多用户计量箱安装使用说明书V1.4申明版权所有，未经本公司之书面许可，此手册中任何段落，章节内容均不得被摘抄、拷贝或以任何形式复制、传播，否则一切后果由违者自负。

本公司保留一切法律权利。

本公司保留对手册所描述之产品规格进行修改的权利，恕不另行通知。

订目录1概述 (1)2产品规格 (1)3技术参数 (1)3.1电气特性 (1)3.2机械特性 (2)4主要功能 (2)5外形及安装尺寸（单位：mm） (2)5.1使用注意事项 (2)5.2产品尺寸 (3)6接线与安装 (4)7功能说明 (5)7.1有功电能计量 (5)7.2继电器控制（仅限预付费型） (5)8显示说明 (5)8.1显示举例 (5)9通信说明 (7)9.1通信协议 (7)9.2MODBUS通信地址说明 (8)9.3MODBUS通信地址表 (8)10常见故障排查 (14)1概述ADF300L 系列多用户计量箱最大可以计量12路三相或者36路单相，又可以支持多路单三混合安装。

该系列计量箱因准确度高、集中安装、集中管理、互不干扰等优势深受小区、学校、企业等的青睐。

计量箱符合国标GB/T 17215.321-2008。

2产品规格选配功能：无;4G:4G 通讯IC：刷卡功能控制类型：无：计量型；Y:预付费型单相回路：1-36三相回路：1-12系列型号：I：单相12回路；II:单相24回路；III:单相36回路3技术参数3.1电气特性表1电气特性3.2机械特性表2机械特性（单位：mm）4主要功能表3主要功能型号类型最多用户反窃电远程抄表远程控制定时控制强控控制过载保护用电量查询剩余电量查询ADF300L-I计量型4S或12D√√√预付费型4SY或12DY√√√√√√√√ADF300L-II计量型8S或24D√√√预付费型8S或24DY√√√√√√√√ADF300L-III计量型12S或36D√√√预付费型12SY或36DY√√√√√√√√5外形及安装尺寸（单位：mm）5.1使用注意事项ADF300L系列多用户计量箱使用进线需与配套塑壳断路器配合使用，出线与配套微型断路器配合使用；出线端子采用双螺丝拧紧，严禁仅使用一只螺丝拧紧固定。

薛亚伟，孙　丽，韩　旭，等．牡蛎共生菌Ｔａｌａｒｏｍｙｃｅｓｓｐ．ＭＬ－３发酵液的化学成分研究［Ｊ］．江苏农业科学，２０２３，５１（６）：１４４－１５１．ｄｏｉ：１０．１５８８９／ｊ．ｉｓｓｎ．１００２－１３０２．２０２３．０６．０２１牡蛎共生菌Ｔａｌａｒｏｍｙｃｅｓｓｐ．ＭＬ－３发酵液的化学成分研究薛亚伟１，２，孙　丽１，韩　旭１，袁　梦３，王凤舞３，申　丽１，２（１．扬州大学医学院，江苏扬州２２５００１；２．江苏省中西医结合老年病防治重点实验室，江苏扬州２２５００１；３．青岛农业大学食品科学与工程学院，山东青岛２６６１０９） 摘要：为研究牡蛎共生菌Ｔａｌａｒｏｍｙｃｅｓｓｐ．ＭＬ－３发酵液的化学成分，首先采用硅胶柱层析、ＳｅｐｈａｄｅｘＬＨ－２０凝胶柱层析、高效液相色谱等方法对Ｔａｌａｒｏｍｙｃｅｓｓｐ．ＭＬ－３发酵液粗浸膏的化学成分进行分离纯化；再采用高分辨电喷雾质谱、核磁共振谱等现代波谱技术及文献比对的方法进行化合物的结构鉴定；最后采用基于液相色谱－串联质谱（ＬＣ－ＭＳ／ＭＳ）的全球天然产物（ＧＮＰＳ）分子网络技术分析Ｔａｌａｒｏｍｙｃｅｓｓｐ．ＭＬ－３发酵液的化学成分。

结果从Ｔａｌａｒｏｍｙｃｅｓｓｐ．ＭＬ－３发酵液粗浸膏中分离得到４个化合物，分别为ｅｍｏｄｉｎ（化合物１）、３－ｉｎｄｏｌｅｔｈａｎｏｌ（化合物２）、ω－ｈｙｄｒｏｘｙ－ｅｍｏｄｉｎ（化合物３）和（２２Ｅ，２４Ｒ）－８，１４－ｅｐｏｘｙｅｒｇｏｓｔａ－４，２２－ｄｉｅｎｅ－３，６－ｄｉｏｎｅ（化合物４）；通过ＬＣ－ＭＳ／ＭＳ分子网络分析，从菌株ＭＬ－３发酵液中识别出６类２２个化合物，包括１１个蒽醌类化合物（３个二蒽醌和８个单蒽核蒽醌）、３个脂肪酸类化合物、４个环二肽、２个香豆素类化合物、１个吲哚生物碱和１个麦角甾醇等。

Ｔａｌａｒｏｍｙｃｅｓｓｐ．ＭＬ－３发酵液中含有丰富的化学成分，是药物先导化合物的潜在来源，本研究为后续化合物的导向分离和新活性化合物的挖掘提供了研究依据。

Notice The content of data sheet is subject to change without prior notice.In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP ■ FeaturesOutline DimensionsApplicationsPQ1LAxx3MSPQ SeriesCompact Surface Mount TypeLow Power-Loss Voltage RegulatorsParameterSymbolRatingUnit300V V Input voltage 150°C Power dissipation *1*3Junction temperature Operating temperature Storage temperature -55 to +150Soldering temperature270(10s)1515(Ta=25°C )Output current*1°C °C °C*1 All are open except GND and applicable terminals. *2 At surface-mounted condition*3 Overheat protection may operate at Tj:125°C to 150°COutput control voltage 900*2Lead finish:Lead-free solder plating (Composition: Sn2Bi)pact surface mount package (4.5×4.3×1.5mm)2.Output current : MAX.300mA3.Power dissipation : MAX.900mW (At mounting PCB shown in Fig.3)4.Built-in ON/OFF control function5.Built-in overcurrent, overheat protection functionse of ceramic capacitor is possible as output smooth capacitor7.RoHS directive compliant1.CD-ROM drives2.DVD-ROM drives 1.5V PQ1LA153MSPQ 1.8V 2.5V3.0V PQ1LA183MSPQ PQ1LA253MSPQ PQ1LA303MSPQ 3.3V 5.0V 9.0VPQ1LA333MSPQ PQ1LA503MSPQ PQ1LA903MSPQ-40 to +85V IN Model Line-up Output Voltage (TYP.)Model No.Absolute Maximum RatingsV C I O mA P D mW Tj T opr T stg T solElectrical CharacteristicsOutput voltage Load regulation Line regulationRipple rejection UnitQuiescent current SymbolMIN.TYP.MAX.UnitParameter ConditionsOutput noise voltage Dropout voltage Refer to Fig.2Refer to list.1Fig.1 Standard measuring circuit of Regulator portionFig.2 Standard measuring circuit of critical rate of ripple rejection―――±0.5―300.4V ―0.25150.05―RR ―2mV mV ―dB ―55――V 1060―50―0.5――1.8V O V IN ―2.515―V V O <3V,I O =5 to 300mA R eg L V O ≥3V,I O =5 to 300mA%R eg IV O <3V,V IN ＝V O (TYP)+1V to V O (TYP)+6V V O ≧3V,V IN ＝V O (TYP)+1V to V O (TYP)+6V%T C V O I O =10mA, Tj=0 to 100°C%V no(rms)10Hz<f<100kHz,C n =0.1μF,I O =30mAμV V C(ON)I C(ON)V C(OFF)*6 V IN (MIN)=2.5V(PQ1LA153MSPQ, PQ1LA183MSPQ )V I-O I O =300mA,*5,*60.40.7―V ――V C =1.8V μA ―V I qI O =0mA 5800―μA 550I qs V C =0.2V―μA1―(Unless otherwise specified condition shall be V IN =V O (TYP .)+1.0V,I O =30mA,V C =1.8V,Ta=25°C)ParameterSymbol ConditionsMIN.TYP .MAX.Input voltage Temperature coefficient of output voltage On-state voltage for control On-state current for control Off-voltage for control Output off-state consumption current*5 Input voltage when output voltage falls 0.1V from that at V IN =V O (TYP)+1.0V.*7 In case that the control terminal (③ pin) is non-connection,output voltage should be OFF state.V IN =V O (TYP .)+1.0V, I O =30ｍA,V C =1.8V,Ta=25°CPQ1LA153MSPQ PQ1LA183MSPQ PQ1LA253MSPQ PQ1LA303MSPQ V O1.4401.7402.440 1.5601.8602.5603.060V 1.51.82.53.02.940PQ1LA333MSPQ PQ1LA503MSPQ PQ1LA903MSPQ3.2344.900 3.3665.1009.1803.35.09.08.820V IN =V O (TYP.)+1.0V V C =1.8V I O =30mARR=20log {ei(rms)/Eo(rms)}List.1 Out put voltage Line-up*4*7*4*4 Typical value of 3.3V output model.Ambient temperature T a (°C)Note)Oblique line portion:Overheat protection may operate in this area.P o w e r d i s s i p a t i o n P D (m W )1002003004005006007008009001000-40-25025508575125100150Material PCB SizeCopper foil area Thickness of copper Mounting PCBFig.3 Power Dissipation vs. Ambient Temperature Output current I O (A)R e l a t i v e o u t p u t v o l t a g e (%)Input voltage V IN (V)O u t p u t v o l t a g e V O (V )Fig.5 Output Voltage vs. Input Voltage (Typical Value) (PQ1LA333MSPQ )Fig.4 Overcurrent Protection Characteristics0123456789Input voltage V IN (V)C i r c u i t o p e r a t i n g c u r r e n t I BI A S (m A )Fig.6 Circuit Operating Current vs. Input Voltage (Typical Value) (PQ1LA333MSPQ )100200300400500600Junction temperature Tj (°C)Fig.7 Quiescent Current vs. Junction Temperature (Typical Value)00.10.20.30.40.50.60.7255075100: Glass-cloth epxy resin : 20mm × 20mm × 1.0mm : 180mm 2: 35μmQ u i e s c e n t c u r r e n t I q (μA )Fig.10 Dropout Voltage vs. Output Current (Typical Value)Fig.8 Dropout Voltage vs. Junction Temperature (Typical Value) (PQ1LA333MSPQ )-40-20020406010080120140Junction temperature Tj (°C)D r o p o u t v o l t a g e V i –O (V )Fig.9 Output Voltage Deviation vs. JunctionTemperature (Typical Value) (PQ1LA333MSPQ )Junction temperature Tj (°C)O u t p u t v o l t a g e d e v i a t i o n ΔV O(m V )0.10.20.30.40.50.60.7Output current I O (mA)D r o p o u t v o l t a g e V I -O (V )R i p p l e r e j e c t i o n R R (d B )Input ripple frequency f(kHz)Fig.11 Ripple Rejection vs. Input Ripple Frequency(Typical Value) (PQ1LA333MSPQ )Fig.12 Output Peak Current vs. Junction Temperature (Typical Value)Junction temperature Tj (°C)O u t p u t p e a k c u r r e n t I O P (A )■　Example of application　High : Output ON Load: Output OFFLow or Open。

第三篇路面及排水一设计依据《公路沥青路面设计规范》(JTG D50-2006)；《公路水泥混凝土路面设计规范》(JTG D40-2002)；《公路沥青路面施工技术规范》(JTG F40-2004)；《公路水泥混凝土路面施工技术规范》(JTG F30-2003)；《公路路面基层施工技术规范》(JTJ 034-2000)；《公路工程沥青及沥青混合料试验规程》(JTJ 052-2000)；《公路工程水泥混凝土试验规程》(JTJ 053-94)；《公路自然区划标准》(JTJ 003-86)陕西省交通厅《关于高速公路建设项目沥青路面加厚等问题的通知》《陕西省公路技术管理文件汇编》《初步设计》及审查意见二审查意见执行情况1.主线及互通式立交匝道路面设计为4cmAC-13(改性沥青)+6cmAC-20（改性沥青）+12cmATB-30+36cm5%水泥稳定碎石基层+18cm4%水泥稳定碎石底基层。

底基层应与01合同段一致，改为二灰碎石结构。

答复：按审查意见执行。

2.原则同意连接线一级公路路面采用5cmAC-16+7cmAC-25+20cm 5%水泥稳定碎石基层+20cm二灰碎石底基层，二级公路路面采用4cmAC-13+6cmAC-20+36cm水泥稳定碎石基层+18cm二灰碎石底基层，建议二级公路基层改为二灰碎石，底基层改为二灰土结构。

答复：根据审查意见，一级路路面底基层改为二灰碎石结构，二级路基层保持为水泥稳定碎石，底基层采用二灰土。

3.收费广场路面结构为26cm铣削型钢纤维混凝土+20cm 5%水泥稳定碎石基层+20cm4%水泥稳定碎石底基层，建议底基层改为二灰碎石结构。

收费广场混凝土路面应延伸至渐变段起终点。

答复：根据审查意见修改。

4.同意桥面铺装层设计。

说明中应补充桥面铺装防水层设计相关内容。

答复：桥面防水层采用SBR改性沥青，在设计说明中有反映。

5.主线及互通立交匝道、服务区匝道、停车区匝道硬路肩路面设计采用4cmAC-13(改性沥青)+18cm级配碎石+36cm 5%水泥稳定碎石基层+18cm4%水泥稳定碎石底基层。