BA5948FP中文资料

汉字代码拼音类型五笔输入是否常用使用地区阿1602a简体字bskg是全宇宙啊1601a简体字kbsk是全宇宙吖6325a简体字kuhh是全宇宙嗄6436a简体字kdht是全宇宙腌7571a简体字edjn是全宇宙锕7925a简体字qbsk是全宇宙爱1614ai简体字epdc是全宇宙埃1603ai简体字fctd是全宇宙碍1613ai简体字djgf是全宇宙矮1611ai简体字tdtv是全宇宙挨1604ai简体字rctd是全宇宙唉1606ai简体字kctd是全宇宙哎1605ai简体字kaqy是全宇宙哀1607ai简体字yeu是全宇宙皑1608ai简体字rmnn是全宇宙癌1609ai简体字ukkm是全宇宙蔼1610ai简体字ayjn是全宇宙艾1612ai简体字aqu是全宇宙隘1615ai简体字buwl是全宇宙捱6263ai简体字rdff是全宇宙嗳6440ai简体字kepc是全宇宙嗌6441ai简体字kuwl是全宇宙嫒7040ai简体字vepc是全宇宙瑷7208ai简体字gepc是全宇宙暧7451ai简体字jepc是全宇宙砹7733ai简体字daqy是全宇宙锿7945ai简体字qyey是全宇宙霭8616ai简体字fyjn是全宇宙安1618an简体字pvf是全宇宙按1620an简体字rpvg是全宇宙暗1621an简体字jujg是全宇宙岸1622an简体字mdfj是全宇宙案1624an简体字pvsu是全宇宙俺1619an简体字wdjn是全宇宙氨1617an简体字rnpv是全宇宙胺1623an简体字epvg是全宇宙鞍1616an简体字afpv是全宇宙谙5847an简体字yujg是全宇宙埯5991an简体字fdjn是全宇宙揞6278an简体字rujg是全宇宙犴6577an简体字qtfh是全宇宙庵6654an简体字ydjn是全宇宙桉7281an简体字spvg是全宇宙铵7907an简体字qpvg是全宇宙鹌8038an简体字djng是全宇宙黯8786an简体字lfoj是全宇宙昂1626ang简体字jqbj是全宇宙肮1625ang简体字eymn是全宇宙盎1627ang简体字mdlf是全宇宙凹1628ao简体字mmgd是全宇宙奥1634ao简体字tmod是全宇宙敖1629ao简体字gqty是全宇宙熬1630ao简体字gqto是全宇宙翱1631ao简体字rdfn是全宇宙袄1632ao简体字putd是全宇宙傲1633ao简体字wgqt是全宇宙懊1635ao简体字ntmd是全宇宙澳1636ao简体字itmd是全宇宙坳5974ao简体字fxln是全宇宙拗6254ao简体字rxln是全宇宙嗷6427ao简体字kgqt是全宇宙岙6514ao简体字tdmj是全宇宙廒6658ao简体字ygqt是全宇宙遨6959ao简体字gqtp是全宇宙媪7033ao简体字vjlg是全宇宙骜7081ao简体字gqtc是全宇宙獒7365ao简体字gqtd是全宇宙聱8190ao简体字gqtb是全宇宙螯8292ao简体字gqtj是全宇宙鏊8643ao简体字gqtq是全宇宙鳌8701ao简体字gqtg是全宇宙鏖8773ao简体字ynjq是全宇宙把1649ba简体字rcn是全宇宙八1643ba简体字wty是全宇宙吧1641ba简体字kcn是全宇宙巴1645ba简体字cnhn是全宇宙拔1646ba简体字rdcy是全宇宙霸1652ba简体字fafe是全宇宙罢1653ba简体字lfcu是全宇宙爸1654ba简体字wqcb是全宇宙坝1651ba简体字fmy是全宇宙芭1637ba简体字acb是全宇宙捌1638ba简体字rklj是全宇宙扒1639ba简体字rwy是全宇宙叭1640ba简体字kwy是全宇宙笆1642ba简体字tcb是全宇宙疤1644ba简体字ucv是全宇宙跋1647ba简体字khdc是全宇宙靶1648ba简体字afcn是全宇宙耙1650ba简体字dicn是全宇宙茇6056ba简体字adcu是全宇宙菝6135ba简体字ardc是全宇宙岜6517ba简体字mcb是全宇宙灞6917ba简体字ifae是全宇宙钯7857ba简体字qcn是全宇宙粑8446ba简体字ocn是全宇宙鲅8649ba简体字qgdc是全宇宙魃8741ba简体字rqcc是全宇宙百1657bai简体字djf是全宇宙白1655bai简体字rrrr是全宇宙败1660bai简体字mty是全宇宙摆1658bai简体字rlfc是全宇宙柏1656bai简体字srg是全宇宙佰1659bai简体字wdjg是全宇宙拜1661bai简体字rdfh是全宇宙稗1662bai简体字trtf是全宇宙捭6267bai简体字rrtf是全宇宙掰7494bai简体字rwvr是全宇宙办1676ban简体字lwi是全宇宙半1675ban简体字ufk是全宇宙板1669ban简体字srcy是全宇宙班1664ban简体字gytg是全宇宙般1667ban简体字temc是全宇宙版1670ban简体字thgc是全宇宙拌1672ban简体字rufh是全宇宙搬1665ban简体字rtec是全宇宙斑1663ban简体字gygg是全宇宙扳1666ban简体字rrcy是全宇宙伴1673ban简体字wufh是全宇宙颁1668ban简体字wvdm是全宇宙扮1671ban简体字rwvn是全宇宙瓣1674ban简体字urcu是全宇宙绊1677ban简体字xufh是全宇宙阪5870ban简体字brcy是全宇宙坂5964ban简体字frcy是全宇宙钣7851ban简体字qrcy是全宇宙瘢8103ban简体字utec是全宇宙癍8113ban简体字ugyg是全宇宙舨8418ban简体字terc是全宇宙帮1679bang简体字dtbh是全宇宙棒1684bang简体字sdwh是全宇宙邦1678bang简体字dtbh是全宇宙榜1681bang简体字supy是全宇宙梆1680bang简体字sdtb是全宇宙膀1682bang简体字eupy是全宇宙绑1683bang简体字xdtb是全宇宙磅1685bang简体字dupy是全宇宙蚌1686bang简体字jdhh是全宇宙镑1687bang简体字qupy是全宇宙傍1688bang简体字wupy是全宇宙谤1689bang简体字yupy是全宇宙蒡6182bang简体字aupy是全宇宙浜6826bang简体字irgw是全宇宙报1708bao简体字rbcy是全宇宙保1703bao简体字wksy是全宇宙包1692bao简体字qnv是全宇宙剥1694bao简体字vijh是全宇宙薄1701bao简体字aigf是全宇宙胞1691bao简体字eqnn是全宇宙暴1709bao简体字jawi是全宇宙宝1706bao简体字pgyu是全宇宙饱1705bao简体字qnqn是全宇宙抱1707bao简体字rqnn是全宇宙爆1712bao简体字ojai是全宇宙堡1704bao简体字wksf是全宇宙苞1690bao简体字aqnb是全宇宙褒1693bao简体字ywke是全宇宙雹1702bao简体字fqnb是全宇宙豹1710bao简体字eeqy是全宇宙鲍1711bao简体字qgqn是全宇宙葆6165bao简体字awks是全宇宙孢7063bao简体字bqnn是全宇宙煲7650bao简体字wkso是全宇宙鸨8017bao简体字xfqg是全宇宙褓8157bao简体字puws是全宇宙趵8532bao简体字khqy是全宇宙龅8621bao简体字hwbn是全宇宙北1717bei简体字uxn是全宇宙被1727bei简体字puhc是全宇宙倍1722bei简体字wukg是全宇宙备1724bei简体字tlf是全宇宙背1719bei简体字uxef是全宇宙辈1718bei简体字djdl是全宇宙贝1720bei简体字mhny是全宇宙杯1713bei简体字sgiy是全宇宙卑1716bei简体字rtfj是全宇宙悲1715bei简体字djdn是全宇宙碑1714bei简体字drtf是全宇宙钡1721bei简体字qmy是全宇宙狈1723bei简体字qtmy是全宇宙惫1725bei简体字tlnu是全宇宙焙1726bei简体字oukg是全宇宙孛5635bei简体字fpbf是全宇宙陂5873bei简体字bhcy是全宇宙邶5893bei简体字uxbh是全宇宙埤5993bei简体字frtf是全宇宙萆6141bei简体字artf是全宇宙蓓6177bei简体字awuk是全宇宙呗6334bei简体字kmy是全宇宙悖6703bei简体字nfpb是全宇宙碚7753bei简体字dukg是全宇宙鹎8039bei简体字rtfg是全宇宙褙8156bei简体字puue是全宇宙鐾8645bei简体字nkuq是全宇宙鞴8725bei简体字afae是全宇宙本1730ben简体字sgd是全宇宙奔1728ben简体字dfaj是全宇宙苯1729ben简体字asgf是全宇宙笨1731ben简体字tsgf是全宇宙畚5946ben简体字cdlf是全宇宙坌5948ben简体字wvff是全宇宙贲7458ben简体字famu是全宇宙锛7928ben简体字qdfa是全宇宙泵1735beng简体字diu是全宇宙崩1732beng简体字meef是全宇宙绷1733beng简体字xeeg是全宇宙甭1734beng简体字giej是全宇宙蹦1736beng简体字khme是全宇宙迸1737beng简体字uapk是全宇宙嘣6452beng简体字kmee是全宇宙甏7420beng简体字fkun是全宇宙比1740bi简体字xxn是全宇宙必1756bi简体字nte是全宇宙避1760bi简体字nkup是全宇宙闭1753bi简体字ufte是全宇宙辟1757bi简体字nkuh是全宇宙笔1742bi简体字ttfn是全宇宙壁1758bi简体字nkuf是全宇宙臂1759bi简体字nkue是全宇宙毕1747bi简体字xxfj是全宇宙彼1743bi简体字thcy是全宇宙逼1738bi简体字gklp是全宇宙币1750bi简体字tmhk是全宇宙鼻1739bi简体字thlj是全宇宙蔽1746bi简体字aumt是全宇宙鄙1741bi简体字kflb是全宇宙碧1744bi简体字grdf是全宇宙蓖1745bi简体字atlx是全宇宙毙1748bi简体字xxgx是全宇宙毖1749bi简体字xxnt是全宇宙庇1751bi简体字yxxv是全宇宙痹1752bi简体字ulgj是全宇宙敝1754bi简体字umit是全宇宙弊1755bi简体字umia是全宇宙陛1761bi简体字bxxf是全宇宙匕5616bi简体字xtn是全宇宙俾5734bi简体字wrtf是全宇宙荜6074bi简体字axxf是全宇宙荸6109bi简体字afpb是全宇宙薜6221bi简体字anku是全宇宙吡6333bi简体字kxxn是全宇宙哔6357bi简体字kxxf是全宇宙狴6589bi简体字qtxf是全宇宙庳6656bi简体字yrtf是全宇宙愎6725bi简体字ntjt是全宇宙滗6868bi简体字ittn是全宇宙濞6908bi简体字ithj是全宇宙弼6986bi简体字xdjx是全宇宙妣6994bi简体字vxxn是全宇宙婢7030bi简体字vrtf是全宇宙嬖7052bi简体字nkuv是全宇宙璧7221bi简体字nkuy是全宇宙畀7815bi简体字lgjj是全宇宙铋7873bi简体字qntt是全宇宙秕7985bi简体字txxn是全宇宙裨8152bi简体字purf是全宇宙筚8357bi简体字txxf是全宇宙箅8375bi简体字tlgj是全宇宙篦8387bi简体字ttlx是全宇宙舭8416bi简体字texx是全宇宙襞8437bi简体字nkue是全宇宙跸8547bi简体字khxf是全宇宙髀8734bi简体字merf是全宇宙变1768bian简体字yocu是全宇宙边1763bian简体字lpv是全宇宙便1767bian简体字wgjq是全宇宙编1764bian简体字xyna是全宇宙遍1773bian简体字ynmp是全宇宙辩1771bian简体字uyuh是全宇宙扁1766bian简体字ynma是全宇宙辨1770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ULTRA COOL PRODUCTS889 BARTON ST. UNIT #1STONEY CREEK, ON L8E 5V1905-643-0060PRODUCT: Ultra Flame Propane Canister 8ozCODE: UF-4949SECTION 01: IDENTIFICATIONProduct Identifier.......................................Ultra Flame Propane Canister 8ozOther means of Identification....................UF-4949Chemical Family........................................Propane.Recommended use and restrictions..........Soldering, braising.Initial Supplier Identifier.............................Ultra Cool Products889 Barton St. Unit #1Stoney Creek, ON L8E 5V1Tel: 905-643-0060Fax: 905-828-8070Email: info@ultracooEmergency telephone number and any ...Ultra Cool Products: 905-643-0060 (9:00 - 5:00; M-F) . In the event of a transportrestrictions on the use of that number emergency contact CANUTEC at (613) 996-6666. .SECTION 02: HAZARD IDENTIFICATIONSignal Word...............................................DANGER.Hazard Classification................................. Flammable Gases — Category 1. Gases Under Pressure — Liquefied Gas. FlammableLiquid - Category 2. Skin Sensitizer — Category 1. Skin Irritation — Category 2.Hazard Statements....................................H220 Extremely flammable gas . H225 Highly flammable liquid and vapour. H280 Containsgas under pressure; may explode if heated . H315 Causes skin irritation. H317 May causean allergic skin reaction. Prevention.................................................P210 Keep away from all sources of heat, sparks, open flames, hot surfaces. No smoking.P233 Keep container tightly closed. P240 Ground and bond container and receivingequipment. P241 Use explosion-proof equipment . P242 Use only non-sparking tools. P243Take precautionary measures against static discharge. P261 Avoid breathing dust, vapor,mist or spray. P264 Wash thoroughly after handling. P272 Contaminated work clothingshould not be allowed out of the workplace. P280 Wear protective gloves/protectiveclothing/eye protection/face protection. Response..................................................P377 Leaking gas fire: Do not extinguish, unless leak can be stopped safely . P381 In caseof leakage, eliminate all ignition sources . P303+P361+P353 IF ON SKIN (or hair)immediately take off all contaminated clothing, rinse skin with water or use emergencyshower. P370+P378 In case of fire - use dry chemical powder, CO2 or foam to extinguish.P302+P352 IF ON SKIN: Wash with plenty of water. P333+P313 If skin irritation or rashoccurs: Get medical attention. P362+P364 Take off contaminated clothing and wash beforereuse. Storage......................................................P403+P235 Store in well ventilated place. Keep cool. P410 + P403 Protect from sunlight.Store in a well-ventilated place . Disposal.....................................................P501 Dispose of contents and empty containers in accordance with local regulations.Other hazards............................................H400 Very toxic to aquatic life . H410 Very toxic to aquatic life with long lasting effects.Avoid release to the environment. Collect spillage.Mixture Statement.....................................This product has been classified based upon the information provided by the supplier.SECTION 03: COMPOSITION / INFORMATION ON INGREDIENTSCHEMICAL NAME AND SYNONYMS CAS #WT. %Petroleum gases, liquefied 68476-85-799.7Ethyl Mercaptin75-08-10.28Cyclohexene, 1-methyl-4-(1-methylethenyl)- 138-86-30.02SECTION 04: FIRST-AID MEASURESFIRST AID MEASURES:Skin Contact.............................................Flush contaminated skin with plenty of water. Remove contaminated clothing and shoes.To avoid the risk of static discharges and gas ignition, soak contaminated clothingthoroughly with water before removing it. Get medical attention if symptoms occur. In caseof contact with liquid, warm frozen tissues slowly with lukewarm water and get medicalattention. Do not rub affected area. Wash clothing before reuse. Clean shoes thoroughlybefore reuse.Eye Contact..............................................Check for an remove any contact lenses. Immediately flush eyes with plenty of water for atleast 15 minutes, occasionally lifting the upper and lower eyelids. . Get medical attentionimmediately.Ingestion...................................................Remove victim to fresh air and keep at rest in a position comfortable for breathing. Getmedical attention if adverse health effects persist or are severe. Ingestion of liquid cancause burns similar to frostbite. If frostbite occurs, get medical attention. Never giveanything by mouth to an unconscious person. . If unconscious, place in recovery positionand get medical attention immediately. Maintain an open airway. Loosen tight clothing suchas a collar, tie, belt or waistband. As this product rapidly becomes a gas when released,refer to the inhalation section.Inhalation..................................................If inhaled, remove to fresh air. If not breathing, give artificial respiration. If breathing isdifficult, give oxygen. Get medical attention. It may be dangerous to the person providingair to give mouth-to-mouth resuscitation. If unconscious, place in recovery position and getmedical attention immediately. Maintain an open airway. Loosen tight clothing such as acollar, tie, belt or waistband.Symptoms and effects...............................May cause an allergic skin reaction. Liquid can cause burns similar to frostbite. Dermalcontact with rapidly evaporating liquid could result in freezing of the tissues or frostbite.Harmful if inhaled. Asphyxiant gas.Medical attention and special treatment....Adverse symptoms may include frostbite. Treat symptomatically. In the event of an incidentinvolving this product ensure that medical authorities are provided a copy of this safetydata sheet.SECTION 05: FIRE-FIGHTING MEASURESSuitable and unsuitable extinguishing e an extinguishing agent suitable for the surrounding fire.mediaSpecific hazards arising from the .............Contains gas under pressure. Extremely flammable gas. In a fire or if heated, a pressure hazardous product, such as the nature of increase will occur and the container may burst, with the risk of a subsequent explosion. any hazardous combustion products The vapor/gas is heavier than air and will spread along the ground. Gas may accumulate inlow or confined areas or travel a considerable distance to a source of ignition and flashback, causing fire or explosion. By fire: Protect against potentially toxic and irritating fumes. Special protective equipment and ............Promptly isolate the scene by removing all persons from the vicinity of the incident if there precautions for fire-fighters is a fire. No action shall be taken involving any personal risk or without suitable training.Move containers from fire area if this can be done without risk. Use water spray to keepfire-exposed containers cool. Cool fire-exposed containers with cold water spray. Heat willcause pressure build up and may cause explosive rupture . Eliminate all ignition sources ifsafe to do so. Use self-contained breathing apparatus and full firefighting gear.Decomposition and combustion products may be toxic. Fire-fighters should wearappropriate protective equipment and self-contained breathing apparatus (SCBA) with a fullface-piece operated in positive pressure mode. Contact supplier immediately for specialistadvice.SECTION 06: ACCIDENTAL RELEASE MEASURESPersonal precautions, protective .............No action shall be taken involving any personal risk or without suitable training. Evacuate equipment and emergency procedures surrounding areas. Keep unnecessary and unprotected personnel from entering. Do nottouch or walk through spilled material. Avoid breathing vapor or mist. Provide adequateventilation. Wear appropriate respirator when ventilation is inadequate. Put on appropriatepersonal protective equipment (see section 8). No flares, smoking or flames in hazardarea. Avoid dispersal of spilled material and runoff the contact with soil, waterways, drainsand sewers. Ensure emergency procedures to deal with accidental gas releases are inplace to avoid contamination of the environment.Methods and materials for containment ..Immediately contact emergency personnel. Stop leak if without risk. Use spark-proof tools and cleaning up and explosion-proof equipment. Ventilate area. Prevent product from entering sewers orwaterways.SECTION 07: HANDLING AND STORAGEPrecautions for safe handling....................Exposure to this product requires prior training and information. Read the information onthe label and the safety data sheet before handling this product. Contains gas underpressure. Put on appropriate personal protective equipment. Wear appropriate respiratorSECTION 07: HANDLING AND STORAGEPrecautions for safe handling....................when ventilation is inadequate. Avoid contact with skin and eyes. Do not swallow. Do notbreathe gas/fumes/vapor/spray. Use only in well-ventilated areas. Handle and opencontainer with care. Launder contaminated clothing before reuse. When using, do not eator drink. Wash hands before eating, drinking, or smoking. Do not enter storage areas andconfined spaces unless adequately ventilated. Store and use away from heat, sparks, openflame or any other ignition source. Use explosion-proof electrical (ventilating, lighting andmaterial handling) equipment. Use only non-sparking tools. Take precautionary measuresagainst electrostatic discharges. Empty containers retain product residue and can behazardous. Do not reuse container. Close valve after each use and when empty. Protectcylinders from physical damage; do not drag, roll, slide or drop.Conditions for safe storage, including any Store in accordance with local regulations. Store in a segregated and approved area. Store incompatibilities away from all sources of heat and ignition. Store away from direct sunlight. Store awayfrom incompatible materials . Keep container tightly closed in a well ventilated area.SECTION 08: EXPOSURE CONTROLS / PERSONAL PROTECTIONACGIH TLV OSHA PEL NIOSH INGREDIENTS TWA STEL PEL STEL RELPetroleum gases, 1000 ppm Not established1800 mg/m³ (1000 Not established1800 mg/m³ (1000 liquefied ppm)ppm)Ethyl Mercaptin0.5 ppm0.5 ppm10 ppm (25 mg/m3) 0.5 ppm (1.3ceiling mg/m3L) ceiling Cyclohexene, 30 ppm (WEEL)Not established Not established Not established Not established1-methyl-4-(1-methylethenyl)-Appropriate engineering e local exhaust ventilation to maintain airborne concentrations below the TLV. Suitablerespiratory equipment should be used in cases of insufficient ventilation or whereoperational procedures demand it. For guidance on engineering control measures refer topublications such as the ACGIH current edition of 'Industrial Ventilation, a manual ofRecommended Practice. The engineering controls also need to keep gas, vapor or dustconcentrations below any lower explosive limits. Use explosion -proof ventilationequipment.Individual protection measures, such aspersonal protective equipmentEye/Type..................................................Face shield and safety glasses Use equipment for eye protection tested and approvedunder appropriate government standards such as NIOSH (US) or EN 166(EU).Gloves/Type.............................................Wear skin protection equipment. The selection of skin protection equipment depends onthe nature of the work to be performed. Wear chemical resistant gloves to prevent skincontact. Contact glove supplier for additional information.Footwear/Type.........................................Wear safety boots per local regulations.Clothing/Type ..........................................Wear adequate protective clothing to prevent skin contact.Respiratory/Type......................................Where risk assessment shows air-purifying respirators are appropriate use a full-facerespirator with multi- purpose combination (US) or type ABEK (EN 14387) respiratorcartridges as a backup to engineering controls.Other/Type...............................................Handle in accordance with good industrial hygiene and safety practice. Take offimmediately all contaminated clothing. Wash contaminated clothing before reuse.Emergency eye wash station and shower should be available. Anyone handling thisproduct should wash their hands and face before eating, drinking or using tobaccoproducts.SECTION 09: PHYSICAL AND CHEMICAL PROPERTIESAppearance / physical state .....................Gas, compressed. Colour........................................................Colorless. Odour........................................................Odour added. Sulphur like.Odour Threshold (ppm).............................Not available. pH..............................................................Not applicable.Melting/Freezing Point...............................-166.11°C (-267°F) .Initial Boiling Point/Boiling Range..............-34.66°C (-30.4°F) .Flash Point (deg C), Method.....................-60°C (-76°F).Evaporation Rate.......................................Rapid.Flammability (solid/gas).............................Extremely flammable gas.Upper Flammable Limit (% Vol)................8.5.Lower Flammable Limit (% Vol)................ 1.9.Vapour Pressure (mm Hg)........................70 @ 70°F.Vapour Density (Air=1).............................. 1.76.Relative Density/Specific Gravity..............0.54. Solubility....................................................Not available.SECTION 09: PHYSICAL AND CHEMICAL PROPERTIESCoefficient of Water/Oil Distribution..........Not available.Auto Ignition Temperature (deg C)............862.77°C (1585°F).Decomposition temperature......................Not available. Viscosity....................................................Not applicable.SECTION 10: STABILITY AND REACTIVITYReactivity...................................................Contains gas under pressure; may explode if heated. Reacts with oxidants causing fire andexplosion hazard.Chemical stability......................................Stable at normal temperatures and pressures.Possibility of hazardous reactions.............Will not polymerize.Conditions to avoid, including static .........Avoid all sources of ignition: heat, sparks, open flame. Avoid sunlight. Avoid extreme discharge, shock or vibration temperatures.Incompatible materials..............................Strong oxidizing agents.Hazardous decomposition products..........No hazardous decomposition products if stored and handled as prescribed/indicated.SECTION 11: TOXICOLOGICAL INFORMATIONINGREDIENTS LC50LD50Petroleum gases, liquefied 658 mg/L (4 hr.)Not determinedEthyl Mercaptin4420 ppm (4 hr.)682 mg/kg (oral, rat) Cyclohexene, 1-methyl-4-(1-methylethenyl)- Not determined5300 mg/kg (oral, rat)Route of Exposure.....................................Skin contact, eye contact, inhalation. ATEs..........................................................Not determined.Symptoms related to the physical,chemical and toxicological characteristicsEffects of Acute Exposure.........................Harmful if inhaled. Causes skin, eye and respiratory irritation . Exposure may causerespiratory and / or skin sensitization. Skin contact may cause severe irritation. Liquid cancause burns similar to frostbite. Harmful if absorbed through the skin .Effects of Chronic Exposure......................Intentional misuse by deliberately concentrating and inhaling this product may be harmfulor fatal. Sensitization..............................................May cause an allergic skin reaction. May cause allergy or asthma symptoms or breathingdifficulties if inhaled. Mutagenicity..............................................No known mutagenicity effects.Reproductive Effects.................................No known reproductive effects. .Carcinogenicity of Material........................None of the components present in this material at concentrations equal to or greater than0.1% are listed by IARC, NTP, OSHA OR ACGIH as a carcinogen.Specific Target Organ Toxicity - single .....This information, if applicable, can be found in Section 2.exposureSpecific Target Organ Toxicity - repeated This information, if applicable, can be found in Section 2.exposureSECTION 12: ECOLOGICAL INFORMATIONEcotoxicity.................................................H400: Very toxic to aquatic life. H410 Very toxic to aquatic life with long lasting effects .Discharge into the environment must be avoided.Persistence and degradability...................Product data not available.Bioaccumulation Potential.........................Product data not available.Mobility in soil............................................Product data not available.Other adverse effects................................Product data not available.SECTION 13: DISPOSAL CONSIDERATIONSInformation on safe handling for disposal .Dispose of waste in accordance with all applicable Federal, Provincial/State and localand methods of disposal, including any regulations.contaminated packagingSECTION 14: TRANSPORT INFORMATIONTDG Classification.....................................UN1075 - PETROLEUM GASES, LIQUEFIED, 2.1. Limited Quantity: 0.125 L .Refer to Part 1 of Transportation of Dangerous Goods Regulations for additionalinformation.Transport in bulk / IBC Code.....................No data available.SECTION 15: REGULATORY INFORMATIONCEPA Status.............................................Not reviewed.TSCA Inventory Status..............................All components are listed on TSCA .SECTION 16: OTHER INFORMATIONPrepared by ..............................................Trivalent Data Systems Ltd. . Information based on suppliersSDS. rmation for this material safety data sheet was obtained from sources consideredtechnically accurate and reliable. While every effort has been made to ensure fulldisclosure of product hazards, in some cases data is not available and is so stated. Nowarranty, expressed or implied, is made and supplier will not be liable for any losses,injuries for consequential damages, which may result from the use or reliance on anyinformation contained in this form. .Date of the latest revision of the safety ...2019-09-23data sheet。

巴氏硬度计简介：巴氏硬度计（巴克尔硬度计）是一种压痕硬度计，它以特定压头在标准弹簧力的作用下压入试样，以压痕的深度确定试样的硬度。

巴氏硬度计有100个刻度，每个刻度代表压入0.0076mm的深度。

可测量的材料：铝、铝合金、软金属、塑料、光纤、消防梯、复合材料、橡胶或皮革。

玻璃钢等。

用途巴氏硬度计主要用于测试铝及铝合金。

测试铝型材、板材、管材、棒材及铝合金铸件、锻件、机械加工零件，测试超厚铝合金材料及组装后的铝合金制品（例如铝合金门窗、幕墙、消防梯等）。

相关标准：ASTM B648《巴柯尔硬度计测量铝合金硬度的试验方法》。

巴氏硬度计的另一主要应用是用于测试玻璃钢（玻璃纤维增强塑料）和硬塑料。

大部分玻璃钢制品的产品标准中都要求测试巴氏硬度。

相关标准：GB/T3854—2005《增强塑料巴柯尔硬度试验方法》、ASTM D2583—07《巴氏硬度计测量硬塑料压痕硬度的试验方法》。

巴氏硬度计的改进型935—1、936—1可用于测试很软的金属、软塑料、皮革、橡胶、木材等。

工作原理巴氏硬度计（巴柯尔硬度计）是一种压痕式硬度计，它以特定压头在标准弹簧的压力作用下压入试样表面，以压痕的深浅表征试样硬度的高低。

巴氏硬度计有100个分度，每个分度单位代表压入0.0076mm的深度。

压入越深，读数越高，材料越软。

巴氏硬度公式为：HBa=100-L/0.0076式中:HBa—巴氏硬度符号； L —压痕深度（mm）； 0.0076—单位硬度值代表的压痕深度（mm）目录一、概述 (1)二、原理与结构 (2)三、技术参数 (3)四、使用方法 (3)五、仪器校正 (4)六、压针 (5)七、硬度块 (7)八、测量次数 (7)九、型号选择 (8)十、配置 (8)十一、硬度换算表 (9)一、概述巴氏硬度计(巴柯尔硬度计)是一种压痕式硬度计，最早产自美国。

巴氏硬度计有三种型号，其中OU2800-1型巴氏硬度计是代表型产品，应用量最大，一般提到巴氏硬度计主要是指OU2800-1型。

PCA9548A中⽂资料1.General descriptionThe PCA9548A is an octal bi-directional translating switch controlled via the I 2C-bus.The SCL/SDA upstream pair fans out to eight downstream pairs, or channels. Any individual SCx/SDx channel or combination of channels can be selected, determined by the contents of the programmable control register.An active LOW reset input allows the PCA9548A to recover from a situation where one of the downstream I 2C-buses is stuck in a LOW state.Pulling the RESET pin LOW resets the I 2C-bus state machine and causes all the channels to be deselected as does the internal Power-on reset function.The pass gates of the switches are constructed such that the V DD pin can be used to limit the maximum high voltage which will be passed by the PCA9548A.This allows the use of different bus voltages on each pair,so that 1.8V or 2.5V or 3.3V parts can communicate with 5V parts without any additional protection. External pull-up resistors pull the bus up to the desired voltage level for each channel. All I/O pins are 5V tolerant.2.Featuress 1-of-8 bi-directional translating switchess I 2C-bus interface logic; compatible with SMBus standards s Active LOW reset inputs 3 address pins allowing up to 8 devices on the I 2C-bus s Channel selection via I 2C-bus, in any combination s Power-up with all switch channels deselected s Low R on switchess Allows voltage level translation between 1.8V , 2.5V , 3.3V and 5V buses s No glitch on power-up s Supports hot insertion s Low stand-by currents Operating power supply voltage range of 2.3V to 5.5V s 5V tolerant inputss 0Hz to 400kHz clock frequencysESD protection exceeds 2000V HBM per JESD22-A114, 200V MM per JESD22-A115, and 1000V CDM per JESD22-C101 s Latch-up testing is done to JEDEC Standard JESD78 which exceeds 100mA s Three packages offered: SO24, TSSOP24, and HVQFN24PCA9548A8-channel I 2C switch with resetRev. 01 — 15 April 2005Product data sheet3.Ordering information4.Marking Table 1:Ordering informationT amb=–40°C to+85°CType number PackageName Description Version PCA9548ABS HVQFN24plastic thermal enhanced very thin quad?at package;no leads; 24 terminals; body 4×4×0.85mmSOT616-1PCA9548AD SO24plastic small outline package; 24 leads;body width7.5mmSOT137-1PCA9548APW TSSOP24plastic thin shrink small outline package; 24 leads;body width 4.4mmSOT355-1Table 2:Marking codesType number Topside markPCA9548ABS548APCA9548AD PCA9548ADPCA9548APW PCA9548A5.Block diagramFig 1.Block diagram of PCA9548ASWITCH CONTROL LOGICPCA9548ARESET CIRCUIT002aab202SD4SD5SD6SD7V SS V DD RESETI 2C-BUS CONTROLINPUT FILTERSCL SDAA0A1A2SD3SD2SD1SD0SC4SC5SC6SC7SC3SC2SC1SC06.Pinning information6.1PinningFig 2.Pin con?guration for SO24Fig 3.Pin con?guration for TSSOP24Fig 4.Pin con?guration for HVQFN24 (transparent top view)PCA9548AD A0V DD A1SDA RESET SCL SD0A2SC0SC7SD1SD7SC1SC6SD2SD6SC2 SC5SD3SD5SC3SC4V SS SD4002aab199123456789101112141316151817201922212423PCA9548APWA0V DD A1SDA RESET SCL SD0A2SC0SC7SD1SD7SC1SC6SD2SD6SC2 SC5SD3SD5SC3SC4V SS SD4002aab200123456789101112141316151817201922212423002aab201T ransparent top viewSC5SD2SC2SD6SC1SC6SD1SD7SC0SC7SD0A2S D 3S C 3V S SS D 4S C 4S D 5R E S E TA 1A 0V D DS D AS C Lterminal 1index area613514415316217118789101112242322212019PCA9548ABS6.2Pin descriptionTable 3:Pin descriptionSymbol Pin DescriptionSO, TSSOP HVQFNA0122address input 0A1223address input 1RESET324active LOW reset inputSD041serial data 0SC052serial clock 0SD163serial data 1SC174serial clock 1SD285serial data 2SC296serial clock 2SD3107serial data 3SC3118serial clock 3V SS129[1]supply groundSD41310serial data 4SC41411serial clock 4SD51512serial data 5SC51613serial clock 5SD61714serial data 6SC61815serial clock 6SD71916serial data 7SC72017serial clock 7A22118address input 2SCL2219serial clock lineSDA2320serial data lineV DD2421supply voltage[1]HVQFN package die supply ground is connected to both the V SS pin and the exposed center pad.The V SSpin must be connected to supply ground for proper device operation.For enhanced thermal,electrical,andboard-level performance, the exposed pad needs to be soldered to the board using a correspondingthermal pad on the board, and for proper heat conduction through the board thermal vias need to beincorporated in the PCB in the thermal pad region.7.Functional descriptionRefer to Figure 1 “Block diagram of PCA9548A” on page 3.7.1Device addressFollowing a START condition, the bus master must output the address of the slave it is accessing. The address of thePCA9548A is shown in Figure 5. To conserve power, no internal pull-up resistors are incorporated on the hardware selectable address pins and they must be pulled HIGH or LOW.The last bit of the slave address de?nes the operation to be performed. When set to logic 1 a read is selected, while a logic 0 selects a write operation.7.2Control registerFollowing the successful acknowledgement of the slave address,the bus master will send a byte to the PCA9548A, which will be stored in the control register. If multiple bytes are received by the PCA9548A,it will save the last byte received.This register can be written and read via the I 2C-bus.Fig 5.Slave address002aab1891110A2A1A0R/Wfixedhardware selectableFig 6.Control register002aab204B7B6B5B4B3B2B1B0channel selection bits(read/write)76543210channel 0channel 1channel 2channel 3channel 4channel 5channel 6channel 77.2.1Control register de?nitionOne or several SCx/SDx downstream pair, or channel, is selected by the contents of the control register. This register is written after the PCA9548A has been addressed. The 2LSBs of the control byte are used to determine which channel is to be selected.When a channel is selected, the channel will become active after a STOP condition has been placed on the I 2C-bus. This ensures that all SCx/SDx lines will be in a HIGH state when the channel is made active, so that no false conditions are generated at the time of connection.Remark:Multiple channels can be enabled at the same time. Example: B7=0, B6=1,B5=0, B4=0, B3=1, B2=1, B1=0, B0=0, means that channels 7, 5, 4, 1 and 0 are disabled and channels 6, 3, and 2 are enabled. Care should be taken not to exceed the maximum bus capacitance. Default condition is all zeroes.7.3RESET inputThe RESET input is an active LOW signal which may be used to recover from a bus fault condition.By asserting this signal LOW for a minimum of t WL ,the PCA9548A will reset its register and I 2C-bus state machine and will deselect all channels.The RESET input must be connected to V DD through a pull-up resistor.7.4Power-on resetWhen power is applied to V DD ,an internal Power-On Reset (POR)holds the PCA9548A in a reset condition until V DD has reached V POR .At this point,the reset condition is released and the PCA9548A register and I 2C-bus state machine are initialized to their default states—all zeroes—causing all the channels to be deselected. Thereafter, V DD must be lowered below 0.2V to reset the device.Table 4:Control register: Write—channel selection; Read—channel statusB7B6B5B4B3B2B1B0Command X X X X X X X 0channel 0 disabled 1channel 0 enabled X X X X X X 0X channel 1 disabled 1channel 1 enabled X X X X X 0X X channel 2 disabled 1channel 2 enabled X X X X 0X X X channel 3 disabled1channel 3 enabled X X X 0X X X X channel 4 disabled 1channel 4 enabled X X 0X X X X X channel 5 disabled 1channel 5 enabled X 0X X X X X X channel 6 disabled 1channel 6 enabled 0XXXXXXXchannel 7 disabled 1channel 7 enabled7.5Voltage translationThe pass gate transistors of the PCA9548A are constructed such that the V DD voltage can be used to limit the maximum voltage that will be passed from one I 2C-bus to another.Figure 7 shows the voltage characteristics of the pass gate transistors (note that the PCA9548A is only tested at the points speci?ed in Section 11 “Static characteristics” of this data sheet). In order for the PCA9548A to act as a voltage translator, the V o(sw)voltage should be equal to, or lower than the lowest bus voltage. For example, if the main bus was running at 5V , and the downstream buses were 3.3V and 2.7V , then V o(sw)should be equal to or below 2.7V to effectively clamp the downstream bus voltages.Looking at Figure 7, we see that V o(sw)(max) will be at 2.7V when the PCA9548A supply voltage is 3.5V or lower, so the PCA9548A supply voltage could be set to 3.3V . Pull-up resistors can then be used to bring the bus voltages to their appropriate levels (see Figure 14).More Information can be found in Application Note AN262:PCA954X family of I2C/SMBus multiplexers and switches . (1)maximum (2)typical (3)minimumFig 7.Pass gate voltage versus supply voltageV DD (V)2.05.54.53.04.0002aaa9643.02.04.05.0V o(sw)(V)1.0 3.5 5.02.5(1)(2)(3)8.Characteristics of the I 2C-busThe I 2C-bus is for 2-way,2-line communication between different ICs or modules.The two lines are a serial data line (SDA) and a serial clock line (SCL). Both lines must beconnected to a positive supply via a pull-up resistor when connected to the output stages of a device. Data transfer may be initiated only when the bus is not busy.8.1Bit transferOne data bit is transferred during each clock pulse.The data on the SDA line must remain stable during the HIGH period of the clock pulse as changes in the data line at this time will be interpreted as control signals (see Figure 8).8.2START and STOP conditionsBoth data and clock lines remain HIGH when the bus is not busy. A HIGH-to-LOWtransition of the data line while the clock is HIGH is de?ned as the START condition (S).A LOW-to-HIGH transition of the data line while the clock is HIGH is de?ned as the STOP condition (P) (see Figure 9).8.3System con?gurationA device generating a message is a ‘transmitter’, a device receiving is the ‘receiver’. The device that controls the message is the ‘master’ and the devices which are controlled by the master are the ‘slaves’ (see Figure 10).Fig 8.Bit transfermba607data line stable;data validchange of data allowedSDASCLFig 9.De?nition of START and STOP conditionsmba608SDA SCLPSTOP conditionSDASCLSSTART condition8.4AcknowledgeThe number of data bytes transferred between the START and the STOP conditions from transmitter to receiver is not limited. Each byte of eight bits is followed by oneacknowledge bit. The acknowledge bit is a HIGH level put on the bus by the transmitter,whereas the master generates an extra acknowledge related clock pulse.A slave receiver which is addressed must generate an acknowledge after the reception of each byte.Also,a master must generate an acknowledge after the reception of each byte that has been clocked out of the slave transmitter. The device that acknowledges has to pull down the SDA line during the acknowledge clock pulse so that the SDA line is stable LOW during the HIGH period of the acknowledge related clock pulse; setup and hold times must be taken into account.A master receiver must signal an end of data to the transmitter by not generating an acknowledge on the last byte that has been clocked out of the slave. In this event, the transmitter must leave the data line HIGH to enable the master to generate a STOP condition.Fig 10.System con?guration002aaa966MASTER TRANSMITTER/RECEIVERSLAVE RECEIVERSLAVETRANSMITTER/RECEIVERMASTER TRANSMITTERMASTER TRANSMITTER/RECEIVERSDA SCLI 2CMULTIPLEXERSLAVEFig 11.Acknowledgement on the I 2C-bus002aaa987S START condition9821clock pulse for acknowledgementnot acknowledgeacknowledgedata output by transmitterdata output by receiverSCL from master8.5Bus transactionsData is transmitted to the PCA9548A control register using the Write mode as shown in Figure 12.Data is read from PCA9548A using the Read mode as shown in Figure 13.Fig 12.Write control registerFig 13.Read control register002aab205B7B3B2B1B011A2A1A0AS1APslave addressSTART condition R/Wacknowledge from slave acknowledge from slave control register SDA STOP condition002aab206B7B6B5B4B3B2B1B011A2A1A01NA Pslave addressSTART condition R/Wacknowledge from slave no acknowledge from mastercontrol register SDASTOP conditionlast byte9.Application design-in informationFig 14.Typical applicationPCA9548ASD0SC0A1A0V SSSDA SCLRESETV DD = 3.3 VV DD = 2.7 V to 5.5 VI 2C/SMBus master002aab203SDA SCLchannel 0V = 2.7 V to 5.5 VSD1SC1channel 1V = 2.7 V to 5.5 VSD2SC2channel 2V = 2.7 V to 5.5 VSD3SC3channel 3V = 2.7 V to 5.5 VA2SD4SC4channel 4V = 2.7 V to 5.5 VSD5SC5channel 5V = 2.7 V to 5.5 VSD6SC6channel 6V = 2.7 V to 5.5 VSD7SC7channel 7V = 2.7 V to 5.5 V10.Limiting valuesTable 5:Limiting valuesIn accordance with the Absolute Maximum Rating System (IEC 60134). Voltages are referenced to V SS (ground=0V).[1] Symbol Parameter Conditions Min Max UnitV DD supply voltage–0.5+7.0VV I input voltage–0.5+7.0VI I input current-±20mAI O output current-±25mAI DD supply current-±100mAI SS ground supply current-±100mAP tot total power dissipation-400mWT stg storage temperature–60+150°CT amb operating ambient temperature–40+85°C[1]The performance capability of a high-performance integrated circuit in conjunction with its thermal environment can create junctiontemperatures which are detrimental to reliability. The maximum junction temperature of this integrated circuit should not exceed 150°C.11.Static characteristics[1]For operation between published voltage ranges, refer to the worst-case parameter in both ranges.[2]V DD must be lowered to 0.2V in order to reset part.Table 6:DC characteristics- 3.6V I DD supply current operating mode; V DD =3.6V; no load;V I =V DD or V SS ; f SCL =100kHz -3050µA I stb standby current standby mode; V DD =3.6V; no load;V I =V DD or V SS-0.11µA V POR power-on reset voltage no load; V I =V DD or V SS[2]- 1.6 2.1V Input SCL; input/output SDAV IL LOW-level input voltage –0.5-0.3V DD V V IH HIGH-level input voltage 0.7V DD-6V I OL LOW-level output current V OL =0.4V 36-mA V OL =0.6V 69-mA I L leakage current V I =V DD or V SS –1-+1µA C i input capacitance V I =V SS-1521pF Select inputs A0to A2,RESETV IL LOW-level input voltage –0.5-0.3V DD V V IH HIGH-level input voltage 0.7V DD-V DD +0.5V I LI input leakage current pin at V DD or V SS –1-+1µA C iinput capacitanceV I =V SS-25pF Pass gate R onon-state resistanceV DD =3.0V to 3.6V; V O =0.4V;I O =15mA51130?V DD =2.3V to 2.7V; V O =0.4V;I O =10mA71655?V o(sw)switch output voltageV i(sw)=V DD =3.3V; I o(sw)=–100µA - 1.9-V V i(sw)=V DD =3.0V to 3.6V;I o(sw)=–100µA1.6-2.8V V i(sw)=V DD =2.5V; I o(sw)=–100µA - 1.5-V V i(sw)=V DD =2.3V to 2.7V;I o(sw)=–100µA1.1-2.0V I L leakage current V I =V DD or V SS –1-+1µA C ioinput/output capacitanceV I =V SS-35pF[1]For operation between published voltage ranges, refer to the worst-case parameter in both ranges.[2]V DD must be lowered to 0.2V in order to reset part.Table 7:DC characteristicsoperating mode; V DD =5.5V;no load; V I =V DD or V SS ;f SCL =100kHz-65100µAI stb standby current standby mode; V DD =5.5V;no load; V I =V DD or V SS -0.21µA V POR power-on reset voltage no load; V I =V DD or V SS[2]- 1.7 2.1V Input SCL; input/output SDAV IL LOW-level input voltage –0.5-0.3V DD V V IH HIGH-level input voltage 0.7V DD-6V I OL LOW-level output current V OL =0.4V 3--mA V OL =0.6V 6--mA I IL LOW-level input current V I =V SS –1-1µA I IH HIGH-level input current V I =V DD –1-1µA C i input capacitance V I =V SS-1521pF Select inputs A0to A2,RESETV IL LOW-level input voltage –0.5-0.3V DD V V IH HIGH-level input voltage 0.7V DD-V DD +0.5V I LI input leakage current pin at V DD or V SS –1-1µA C iinput capacitance V I =V SS-25pF Pass gate R on on-state resistance V DD =4.5V to 5.5V; V O =0.4V;I O =15mA 4924?V o(sw)switch output voltageV i(sw)=V DD =5.0V;I o(sw)=–100µA- 3.6-V V i(sw)=V DD =4.5V to 5.5V;I o(sw)=–100µA2.6- 4.5V I L leakage current V I =V DD or V SS –1-+1µA C ioinput/output capacitanceV I =V SS-35pF12.Dynamic characteristics[1]Pass gate propagation delay is calculated from the 20? typical R on and the 15pF load capacitance.[2] A device must internally provide a hold time of at least 300ns for the SDA signal (referred to the V IH(min) of the SCL signal) in order to bridge the unde?ned region of the falling edge of SCL.[3]C b =total capacitance of one bus line in pF . [4]Measurements taken with 1k ? pull-up resistor and 50pF load.Table 8:Dynamic characteristics SymbolStandard-modeI 2C-bus Fast-mode I 2C-busUnitMinMax Min Max t PD propagation delay from SDA to SDn,or SCL to SCn -0.3[1]-0.3[1]ns f SCL SCL clock frequency 01000400kHz t BUF bus free time between a STOP and ST ART condition4.7- 1.3-µs t HD;STAHold time (repeated)ST ART condition.After this period,the ?rst clock pulse is generated.4.0-0.6-µst LOW LOW period of the SCL clock 4.7- 1.3-µs t HIGH HIGH period of the SCL clock 4.0-0.6-µs t SU;ST A setup time for a repeated START condition4.7-0.6-µs t SU;STO setup time for STOP condition 4.0-0.6-µs t HD;DA T data hold time 0[2] 3.450[2]0.9µs t SU;DA T data setup time250-100-ns t r rise time of both SDA and SCL signals -100020+0.1C b [3]300ns t f fall time of both SDA and SCL signals -30020+0.1C b [3]300µs C b capacitive load for each bus line -400-400µs t SP pulse width of spikes which must be suppressed by the input ?lter -50-50ns t VD;DA Tdata valid time HIGH-to-LOW [4]-1-1µs LOW-to-HIGH[4]-0.6-0.6µs t VD;ACK data valid acknowledge -1-1µs RESET t w(rst)L LOW-level reset time 4-4-ns t rst reset time (SDA clear) 500-500-ns t REC;STArecovery time to START condition--nsFig 15.De?nition of timing on the I 2C-bust SPt BUFt HD;STAPt LOWt rt HD;DAT t ft HIGH t SU;DATt SU;STASrt HD;STAt SU;STOSDASCL002aaa986Fig 16.De?nition of RESET timing SDASCL002aab174t rst50 %30 %50 %50 %50 %t REC;ST At w(rst)LRESET LEDxLED offST ARTt rstACK or read cycleFig 17.I 2C-bus timing diagram SCLSDAt HD;STA t SU;DA T t HD;DA T t f t BUFt SU;ST At VD;ACK 002aab175t SU;STOprotocolST ART condition (S)bit 7MSB (A7)bit 6(A6)bit 0(R/W)acknowledge(A)STOP condition (P)1/fSCLt rt VD;DA T13.Package outlineFig 18.Package outline SOT137-1 (SO24)UNIT Amax.A 1A 2A 3b p c D (1)E (1)(1)e H E L L p Q Zy w v θREFERENCESOUTLINE VERSION EUROPEAN PROJECTIONISSUE DATE IEC JEDEC JEITAmm inches2.650.30.12.452.250.490.360.320.2315.615.27.67.4 1.2710.6510.001.11.00.90.48oo 0.250.1DIMENSIONS (inch dimensions are derived from the original mm dimensions)Note 1. Plastic or metal protrusions of 0.15 mm (0.006 inch) maximum per side are not included.1.10.4SOT137-1XA 1A 2b pDH EL p Qdetail XE Z cLv M A13(A )3Ay0.25 075E05MS-013pin 1 index0.10.0120.0040.0960.0890.0190.0140.0130.0090.610.60 0.300.290.051.40.0550.4190.3940.0430.0390.0350.0160.010.250.010.0040.0430.0160.01eSO24: plastic small outline package; 24 leads; body width 7.5 mmSOT137-199-12-2703-02-19Fig 19.Package outline SOT355-1 (TSSOP24)UNIT A 1A 2A 3b p c D (1)E (2)(1)e H E L L p Q Z y w v θ REFERENCES OUTLINE VERSION EUROPEAN PROJECTIONISSUE DATE IECJEDEC JEITAmm0.150.050.950.800.300.190.20.17.97.74.54.30.656.66.20.40.380o o0.130.10.21DIMENSIONS (mm are the original dimensions) Notes1. Plastic or metal protrusions of 0.15 mm maximum per side are not included.2. Plastic interlead protrusions of 0.25 mm maximum per side are not included.0.750.50SOT355-1MO-15399-12-2703-02-190.25Ze1122413pin 1 indexθAA 1A 2L p Qdetail XL (A )3H EE cv M AXAD y0 2.5 5 mmscaleTSSOP24: plastic thin shrink small outline package; 24 leads; body width 4.4 mm SOT355-1 Amax.1.1。

tl594用法范文TL594是一种高性能PWM控制器芯片，它常被用于交流电源、逆变器和电机驱动等应用中。

TL594具有多种功能和灵活的配置选项，在电源管理和控制领域中得到广泛应用。

以下是TL594的应用和用法的详细说明。

使用TL594进行PWM控制是一种被广泛使用的方法，可以用于调整电路中的电压、电流和频率。

为了正常运行TL594，首先需要连接其供电引脚来提供稳定的电源电压。

接下来，将输入信号连接到参考电压引脚，以便与外部电压进行比较。

然后，将反馈信号与错误放大器引脚连接，以便控制输出。

最后，将输出信号连接到适当的负载上。

在使用TL594进行PWM控制时，需要注意以下几个关键参数的设置：输出频率、占空比、死区时间和斜率补偿。

输出频率可通过外部电路调整，典型范围为50Hz至1MHz。

要调整占空比，可以使用参考电压和误差放大器引脚之间的电阻分压来控制。

死区时间用于防止上桥和下桥晶体管同时导通，可以通过外部元件来设置。

斜率补偿可用于减小输出电压的噪声，以及提高电路的稳定性和响应速度。

TL594还具有多个输入引脚，用于控制和调整PWM输出。

其中，有两个电压型输入引脚用于输入无级调制（Analog Modulation）信号。

这些输入可以通过外部电路来生成，以改变PWM的占空比或输出频率。

还有两个电流引脚，用于控制PWM输出的源和沉电流。

它们可以用于实现电流抽头、电压限制和电流限制等功能。

另一个重要的功能是TL594的保护电路。

它具有过流保护、过热保护和欠压保护等功能，可以保护整个电路免受损坏。

例如，当电流超出设定的限制范围时，过流保护电路会将PWM输出禁用。

此外，过热保护电路可以监测芯片温度，并在温度过高时关闭PWM输出。

欠压保护电路也能有效地保护电路，当供电电压低于设定的阈值时，PWM输出也会被禁用。

TL594由于其高性能和多种功能，被广泛应用于各种电源管理和控制领域。

例如，它可以用于开关模式电源的电流控制、稳压器的变换和电机驱动器的速度控制。

月光宝盒PM5958 MP5播放器快速操作指南（V1.0）产品外观及按键说明1、A V-OUT视频输出端口2、音量加3、音量减4、MIC录音孔5、耳机标准插孔6、USB接口7、“”键8、电源开关：ON开/OFF关9、不同型号及容量的TF扩展卡接口10、喇叭孔111、喇叭孔2环保说明环保说明根据电子产品污染防治管理办法及相关标准（SJ/T11363-2006SJ/T11363-2006）进行表述产品中有毒有害物质或元素的名称及含量部件名称有毒有害物质或元素铅[Pb]汞[Hg]镉[Cd]六价铬[Cr(VI)]多溴联苯[PBB]多溴苯二醚[PBDE]壳料、结构件O O O O O O PCB板及处理器X X X X X X液晶屏O O O O O O电池O O O O O O电源适配器O O O O O O耳机O O O O O O USB线O O O O O O包装材料及附件O O O O O O O：表示该有毒有害物质在该部件所有均质材料中的含量均在SJ/T11363-2006规定的限量要求以下。

X：表示该有毒有害物质至少在该部件的某一均质材料中的含量超出SJ/T11363-2006规定的限量要求。

注：本产品90%的部件采用无毒无害的环保材料制造，含有有毒有害物质或元素的部件皆因全球发展水平限制而无法实现有毒有害物质或元素的替代。

产品型号：月光宝盒PM5958 MP5 播放器说明: 本播放器的详细操作和各功能参数请参见机器内附带的电子说明书。

aigo MP5 player：PM5958Quick guide1.A V-OUT slot2.V olume+3.V olume-4.MIC port5.Earphone portB port7.“” key8.ON/OFF9.TF slot10.Speaker 111. Speaker 2The name and content of toxic substance and element in the productName of Components Toxic substance and element[Pb] [Hg] [Cd] [Cr(VI)] [PBB] [PBDE]Casing O O O O O OPCB and CPU X X X X X XLCD O O O O O OBattery O O O O O OPower Adaptor O O O O O OEarphone O O O O O OUSB cable O O O O O OPackage andaccessoryO O O O O O O：Indicates the content of the toxic substance in average materials of the component is less than the requirements of SJ/T11363-2006.X：Indicates the content of the toxic substance in some average materials of the component is more than the requirements of SJ/T11363-2006.Remark：About 90% components of this product are made by nontoxic and harmless materials. Those surplus nontoxic and harmless substance and elements are impossibly replaced due to global level of development.Product Model: PM5958Note: For further infomation of operations and functions, please refer to the PDF file of user manual copied into the player.。