BL-HS134E中文资料
矿物缩写
IUGS推荐的矿物缩写符号表(按首字母顺*表示为国际地质科学联合会(Mandarino和Back(2004)或Man,234的矿物缩写均未提到,同S推荐的矿物缩写符号表(按首字母顺序编排)ns recommended by IUGS on CSMR (arranged in alphabetical order)备注IUGS推荐的矿物缩写符号(与Kretz(1983)相同)IUGS推荐的矿物缩写符号(与Kretz(1984)相同)IUGS推荐的矿物缩写符号(与Kretz(1985)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(1986)相同)IUGS推荐的矿物缩写符号(与Kretz(1987)相同)IUGS推荐的矿物缩写符号(与Kretz(1988)相同)IUGS推荐的矿物缩写符号(与Kretz(1989)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(1990)相同)IUGS推荐的矿物缩写符号(与Kretz(1991)相同)IUGS推荐的矿物缩写符号(与Kretz(1992)相同)IUGS推荐的矿物缩写符号(与Kretz(1993)相同)IUGS推荐的矿物缩写符号(与Kretz(1994)相同)IUGS推荐的矿物缩写符号(与Kretz(1995)相同)IUGS推荐的矿物缩写符号(与Kretz(1996)相同)IUGS推荐的矿物缩写符号(与Kretz(1997)相同)IUGS推荐的矿物缩写符号(与Kretz(1998)相同)IUGS推荐的矿物缩写符号(与Kretz(1999)相同)IUGS推荐的矿物缩写符号(与Kretz(2000)相同)IUGS推荐的矿物缩写符号(与Kretz(2001)相同)IUGS推荐的矿物缩写符号(与Kretz(2002)相同)IUGS推荐的矿物缩写符号(与Kretz(2003)相同)IUGS推荐的矿物缩写符号(与Kretz(2004)相同)IUGS推荐的矿物缩写符号(与Kretz(2005)相同)IUGS推荐的矿物缩写符号(与Kretz(2006)相同)IUGS推荐的矿物缩写符号(与Kretz(2007)相同)IUGS推荐的矿物缩写符号(与Kretz(2008)相同)IUGS推荐的矿物缩写符号(与Kretz(2009)相同)IUGS推荐的矿物缩写符号(与Kretz(2010)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2011)相同)IUGS推荐的矿物缩写符号(与Kretz(2012)相同)IUGS推荐的矿物缩写符号(与Kretz(2013)相同)IUGS推荐的矿物缩写符号(与Kretz(2014)相同)IUGS推荐的矿物缩写符号(与Kretz(2015)相同)IUGS推荐的矿物缩写符号(与Kretz(2017)相同)IUGS推荐的矿物缩写符号(与Kretz(2018)相同)IUGS推荐的矿物缩写符号(与Kretz(2019)相同)IUGS推荐的矿物缩写符号(与Kretz(2020)相同)IUGS推荐的矿物缩写符号(与Kretz(2021)相同)IUGS推荐的矿物缩写符号(与Kretz(2022)相同)IUGS推荐的矿物缩写符号(与Kretz(2023)相同)IUGS推荐的矿物缩写符号(与Kretz(2024)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2025)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2026)相同)IUGS推荐的矿物缩写符号(与Kretz(2027)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2028)相同)IUGS推荐的矿物缩写符号(与Kretz(2029)相同)IUGS推荐的矿物缩写符号(与Kretz(2030)相同)IUGS推荐的矿物缩写符号(与Kretz(2031)相同)IUGS推荐的矿物缩写符号(与Kretz(2032)相同)IUGS推荐的矿物缩写符号(与Kretz(2033)相同)IUGS推荐的矿物缩写符号(与Kretz(2034)相同)IUGS推荐的矿物缩写符号(与Kretz(2035)相同)IUGS推荐的矿物缩写符号(与Kretz(2036)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2037)相同)IUGS推荐的矿物缩写符号(与Kretz(2038)相同)IUGS推荐的矿物缩写符号(与Kretz(2039)相同)IUGS推荐的矿物缩写符号(与Kretz(2040)相同)IUGS推荐的矿物缩写符号(与Kretz(2041)相同)IUGS推荐的矿物缩写符号(与Kretz(2042)相同)IUGS推荐的矿物缩写符号(与Kretz(2043)相同)IUGS推荐的矿物缩写符号(与Kretz(2044)相同)IUGS推荐的矿物缩写符号(与Kretz(2045)相同)IUGS推荐的矿物缩写符号(与Kretz(2046)相同)IUGS推荐的矿物缩写符号(与Kretz(2047)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2049)相同)IUGS推荐的矿物缩写符号(与Kretz(2050)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2051)相同)IUGS推荐的矿物缩写符号(与Kretz(2052)相同)IUGS推荐的矿物缩写符号(与Kretz(2053)相同)IUGS推荐的矿物缩写符号(与Kretz(2054)相同)IUGS推荐的矿物缩写符号(与Kretz(2055)相同)IUGS推荐的矿物缩写符号(与Kretz(2056)相同)IUGS推荐的矿物缩写符号(与Kretz(2057)相同)IUGS推荐的矿物缩写符号(与Kretz(2058)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2059)相同)IUGS推荐的矿物缩写符号(与Kretz(2060)相同)IUGS推荐的矿物缩写符号(与Kretz(2061)相同)IUGS推荐的矿物缩写符号(与Kretz(2062)相同)IUGS推荐的矿物缩写符号(与Kretz(2063)相同)IUGS推荐的矿物缩写符号(与Kretz(2064)相同)IUGS推荐的矿物缩写符号(与Kretz(2065)相同)IUGS推荐的矿物缩写符号(与Kretz(2066)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2067)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2068)相同)IUGS推荐的矿物缩写符号(与Kretz(2069)相同)IUGS推荐的矿物缩写符号(与Kretz(2070)相同)IUGS推荐的矿物缩写符号(与Kretz(2071)相同)IUGS推荐的矿物缩写符号(与Kretz(2072)相同)IUGS推荐的矿物缩写符号(与Kretz(2073)相同)IUGS推荐的矿物缩写符号(与Kretz(2074)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2075)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2076)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2077)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2078)相同)IUGS推荐的矿物缩写符号(与Kretz(2079)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2081)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2082)相同)IUGS推荐的矿物缩写符号(与Kretz(2083)相同)IUGS推荐的矿物缩写符号(与Kretz(2084)相同)IUGS推荐的矿物缩写符号(与Kretz(2085)相同)IUGS推荐的矿物缩写符号(与Kretz(2086)相同)IUGS推荐的矿物缩写符号(与Kretz(2087)相同)IUGS推荐的矿物缩写符号(与Kretz(2088)相同)IUGS推荐的矿物缩写符号(与Kretz(2089)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2090)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2091)相同)IUGS推荐的矿物缩写符号(与Kretz(2092)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2093)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2094)相同)IUGS推荐的矿物缩写符号(与Kretz(2095)相同)IUGS推荐的矿物缩写符号(与Kretz(2096)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2097)相同)IUGS推荐的矿物缩写符号(与Kretz(2098)相同)IUGS推荐的矿物缩写符号(与Kretz(2099)相同)IUGS推荐的矿物缩写符号(与Kretz(2100)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2101)相同)IUGS推荐的矿物缩写符号(与Kretz(2102)相同)IUGS推荐的矿物缩写符号(与Kretz(2103)相同)IUGS推荐的矿物缩写符号(与Kretz(2104)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2105)相同)IUGS推荐的矿物缩写符号(与Kretz(2106)相同)IUGS推荐的矿物缩写符号(与Kretz(2107)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2108)相同)IUGS推荐的矿物缩写符号(与Kretz(2109)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2110)相同)IUGS推荐的矿物缩写符号(与Kretz(2112)相同)IUGS推荐的矿物缩写符号(与Kretz(2113)相同)IUGS推荐的矿物缩写符号(与Kretz(2114)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2115)相同)IUGS推荐的矿物缩写符号(与Kretz(2116)相同)IUGS推荐的矿物缩写符号(与Kretz(2117)相同)IUGS推荐的矿物缩写符号(与Kretz(2118)相同)IUGS推荐的矿物缩写符号(与Kretz(2119)相同)IUGS推荐的矿物缩写符号(与Kretz(2120)相同)IUGS推荐的矿物缩写符号(与Kretz(2121)相同)IUGS推荐的矿物缩写符号(与Kretz(2122)相同)IUGS推荐的矿物缩写符号(与Kretz(2123)相同)IUGS推荐的矿物缩写符号(与Kretz(2124)相同)IUGS推荐的矿物缩写符号(与Kretz(2125)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2126)相同)IUGS推荐的矿物缩写符号(与Kretz(2127)相同)IUGS推荐的矿物缩写符号(与Kretz(2128)相同)IUGS推荐的矿物缩写符号(与Kretz(2129)相同)IUGS推荐的矿物缩写符号(与Kretz(2130)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2131)相同)IUGS推荐的矿物缩写符号(与Kretz(2132)相同)IUGS推荐的矿物缩写符号(与Kretz(2133)相同)IUGS推荐的矿物缩写符号(与Kretz(2134)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2135)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2136)相同)IUGS推荐的矿物缩写符号(与Kretz(2137)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2138)相同)IUGS推荐的矿物缩写符号(与Kretz(2139)相同)IUGS推荐的矿物缩写符号(与Kretz(2140)相同)IUGS推荐的矿物缩写符号(与Kretz(2141)相同)IUGS推荐的矿物缩写符号(与Kretz(2142)相同)IUGS推荐的矿物缩写符号(与Kretz(2143)相同)IUGS推荐的矿物缩写符号(与Kretz(2144)相同)IUGS推荐的矿物缩写符号(与Kretz(2145)相同)IUGS推荐的矿物缩写符号(与Kretz(2146)相同)IUGS推荐的矿物缩写符号(与Kretz(2147)相同)IUGS推荐的矿物缩写符号(与Kretz(2148)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2149)相同)IUGS推荐的矿物缩写符号(与Kretz(2150)相同)IUGS推荐的矿物缩写符号(与Kretz(2151)相同)IUGS推荐的矿物缩写符号(与Kretz(2152)相同)IUGS推荐的矿物缩写符号(与Kretz(2153)相同)IUGS推荐的矿物缩写符号(与Kretz(2154)相同)IUGS推荐的矿物缩写符号(与Kretz(2155)相同)IUGS推荐的矿物缩写符号(与Kretz(2156)相同)IUGS推荐的矿物缩写符号(与Kretz(2157)相同)IUGS推荐的矿物缩写符号(与Kretz(2158)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2159)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2160)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2161)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2162)相同)IUGS推荐的矿物缩写符号(与Kretz(2163)相同)IUGS变质岩系统分类分委员会(SCMR)新增的矿物缩写符号IUGS推荐的矿物缩写符号(与Kretz(2164)相同)IUGS推荐的矿物缩写符号(与Kretz(2165)相同)IUGS推荐的矿物缩写符号(与Kretz(2166)相同)(1983,170,180。
管件名称中英文对照表
1A绝压Absolute pressure2AG石棉垫片Asbestos gasket3AL铝Aluminum4ANNL退火Annealed5ANSI美国国家标准协会American National Standard Institute6APP约/近似Approximate7APPX附录Appendix8AS合金钢Alloy steel9ASME美国机械工程师协会American Society of Mechinary Engineer 10ASSY装配、组合Assembly11ASTM美国试验材料协会American Society ofTesting Material12ATM大气压Atmosphere13AUST.SS奥氏体不锈钢Austenitic stainless steel14AUT自动Automatic15AV角阀Angle valve16AVG平均Average17AW电弧焊Arc welding18B螺栓Bolt19BAV球阀Ball valve20BC螺栓分布图Bolt circle21BCT螺栓冷紧Bolt cold tightening22BE坡口端Bevelled end23BEDD基础工程设计数据Basic engineering design data24BF法兰盖(盲板法兰)Blind flange25BHT螺栓热紧Bolt hot tightening26BL装置边界线Battery limit line27BLDG建筑物Building28BLE大端开坡口Bevelled large end29BLK盲板Blank30BOP管底Bottom of pipe31BOS支架底Bottom of support32Boss套管(管箍)Boss33BRS黄铜Brass34BRZ青铜Bronze35BU内外螺纹接头Bushing36BUV蝶阀Butterfly valve37BV呼吸阀Breather valve38BW对焊Butt welding39C保冷Cold insulation40CA腐蚀裕度Corrosion allowance41CA腐蚀裕量Corrosion allowance42CAS铸钢Cast steel43CE焊条Covered electrode/welding rod44CHOP链条操作Chain operated45CHV止回阀Check valve46CI铸铁Cast iron47CL中心线Center line48CL等级Class49CL净距(净空)Clearance50CLAS低合金铸钢Cast low alloy steel51CM色标Color marking52CN建北Constructuon north53CNOC同心的Concentric54CO清洗口Clean out55COD接续图Continued on drawing56COFF围堰Cofferdam57COP管中心Center of pipe58CP管帽(封头)Cap59CPL管箍Coulping60CR同心异径管接头(同心大小头)Concentric reducer61CS碳钢Carbon steel62CSC铅封关Car seal close63CSO铅封开Car seal open64CSP冷紧Cold Spring65CTC中心至中心Center to center66CTE中心至端部Center to end67CTF中心至面Center to face68CU紫铜Copper69CV调节阀Control valve70CW连续焊Continuous welding71D直径Diameter72DEDD详细工程设计数据Detail engineering design data73DF排液漏斗Drain funnel74DI球墨铸铁Ductile iron75DIM尺寸Dimension76DIS排出(口)Discharge77DN公称直径Nominal diameter78DR排液Drain79DTL祥图Detail80DV隔膜阀Diaphragm valve81DWG NO图号Drawing number82DWGI所在图号Drawing identification83E东East84ECC偏心的Eccentric85EFW电熔焊Electric fusion welding86EIT检查、探伤和试验Examination inspection & testing 87EJ补偿器(膨胀节)Expansion joint88EL弯头Elbow89EL标高Elevation90ELL长半径弯头Long radius elbow91ELS短半径弯头Short radius elbow92ER偏心异径管接头(偏心大小头)Eccentric reducer93ERW电阻焊Electric resistance welding94ESEW事故淋浴洗眼器Emergency shower and eye washer 95EST蒸汽外伴热External steam tracing96ET电伴热Electric tracing97ETE端到端End to end98F现场Field99F/F现场制造Field fabricated100FA阻火器Flame arrester101FB全孔Full bore102FCPL双头管箍Full coulping103FDN基础Fundation104FEF法兰端面Flange end face105FF全平面Flat face106FL楼板Floor107FLAS低合金锻钢Forged low alloy steel108FLG法兰Flange109FMG金属平垫片Flat metallic gasket110FNPT60度内锥管螺纹Female National standard taperpipe thread 111FOB底平Flat on buttom112FOT顶平Flat on top113FPT55度内锥管螺纹Female taperpipe thread114FS锻钢Forged steel115FSF法兰密封面Flange sealing face116FTF面到面Face to face117FW现场焊接Field welding118G垫片Gasket119G表压Gauge Pressure120GF槽面Groove face121GL(GALV)镀锌Galvanized122GLV截止阀Globle valve123GRD地坪Ground124GSAW气体保护电弧焊Gas shielded-arc welding125GV闸阀Gate valve126GW气焊Gas welding127H水平Horizontal128H保温Hot insulation129HADT硬度试验Hardness testing130HB布氏硬度Brinnel hardness131HCPL单头管箍Half coulping132HCPL软管接头Hose coulper133HP高点Hight point134HS软管站Hose station135HT热处理Heat treatment136HYDT水压试验Hydraulic testing137ID内径Inside diameter138INF信息资料Information139INS隔热Thermal Insulation140IR内定位环Inner ring141IR/OR内外定位环Inner ring and outer ring142IST蒸汽内伴热Internal steam tracing143JOB. NO.工号Job number144LAS低合金钢Low alloy steel145LB磅/平方英尺Pound146LC锁闭Lock close147LER透镜式金属环垫Lens ring gasket148LF凹面female face149LF大凹面Large female150LG大槽面Large groove151LJ松套法兰Lapped joint flange152LM大凸面Large male153LM管道混合器Line mixer154LM凸面Male face155LO锁开Lock open156LOW材料表List of material157LP低点Low point158LPI(PT)液体渗透检验Liquid penterant inspection159LR长半径Long radius160LT大榫面Large tongue161LT斜三通Lateral tee162LTCS低温碳钢Low temperature carbon steel163LW搭接焊Lap welding164M金属材料Metallic material165MAX最大Maximum166MEL斜接弯头(虾米腰弯头)Micre elbow167MFF凹凸面Male and female face168MG金属垫片Metallic gasket169MHR工时Man hour170MI可锻铸铁Malleable iron171MIN最小Minimum172MJG金属包垫片Meta-jacket gasket173ML手动Manual Control174ML接续分界线Match line175MNPT60度外椎管螺纹Male National standard taperpipe thread 176MO混合孔板Mixing orifice177MPI(MT)磁粉探伤Magnetic particle inspection178MSS美国阀门和配件工业制造商标准化学会Manufacturers Standardization Society of The Valve And Fittings Industry179MTO汇料Material take-off180N北North181NC正常关Normally close182NDT无损试验Non-destructive testing183NIP短节Pipe nipple or straight nipple184NMG非金属垫片Non-mental gasket185NO正常开Normally open186NPS美国标准直管螺纹National standard straight pipe thread 187NPT美国标准锥管螺纹National standard taperpipe thread 188NU螺母Nut189NV针形阀Neddle valve190OCR八角形金属环垫Octagonal ring gasket191OD外径Outside diameter192O-LET支管台Out let193OR外定位环Outter ring194OVR椭圆形金属环垫Oval ring and outer ring195P防烫伤隔热Personnel protection insulation196P管道Pipe197P压力Pressure198PBE两端平面Palin both end199PD清扫设施Purge device200PE平端面Plain end201PF平台Platform202PFD工艺流程图Process flow diagram203PH预热Preheating204PID管道和仪表流程图Piping & instrument diagram205PL管堵(丝堵)Plug206PLE-SPR大端平端 小端螺纹Plain large end & samll screw end 207PMI阳性(金属)材料辨别Postive Material Identification208PN公称压力Nominal pressure209PNET气压试验Pneumatic testing210POE-TOE一端平端 一端螺纹Plain one end & threaded one end 211PR管桥Pipe rack212PRV泄压阀Pressure relief valve213PS管道支架(管架)Piping support214PSE小端平端Plain samll end215PT池Pit216PT55度锥管螺纹Taperpipe thread217PT.EL点标高Point elevation218PV旋塞阀Plug valve(rock)219PWHT焊后热处理Post weld heat treatment220QTY数量Quantity221R异径管接头(大小头)Reducer222RB缩孔Reduce bore223RC洛氏硬度Rockwell hardness224RCPL异径管箍Reducing coulping225RD爆破片(爆破膜)Rupture disk226REDF异径法兰Reducing flange227REF参考Reference228REF.DWG.参考图Referance drawing229REL异径弯头Reducing elbow230REV修改Revision231REV.NO.修改号Revision number232RF凸台面Raised face233RG橡胶垫片Rubber gasket234RI(RT)射线探伤Radiographic inspection235RJ环连接面Ring joint face236RO限流孔板Restriction orifice237RP补强板Reinforcing pad238RT异径三通Reducing tee239RTG(压力)等级Rating240RTJ 环槽面Ring tongur joint241RV减压阀Pressure valve242S南South243SB螺柱Stud bolt244SB/FIG-8 BLANK8字盲板Spectacle Blind (blank)245SC采样接口Sample connection246SC取样冷却器Sample cooler247SCH表号Schedule number248SE翻边短节Stub end249SEQ序号(顺序)Sequence250SEW密封焊Seal welding251SF现场决定Suit in field252SFG堆焊Surfacing253SG视镜Sight glass254SHLT棚Shelter255SIL消声器Sliencer256SJT蒸汽夹套伴热Stean-jacket tracing257SMG半金属垫片Senimetalic gasket258SMLS无缝Seamless259SMSG齿形金属垫片Solid metal serrated gasket260SNIP异径短节Swaged nipple261SO蒸汽吹扫(口)Steam out262SOF平焊法兰Slip-on flange263SPDWG(ISODWG)管段图Spool drawing (each line isometric drawing 264SPLS螺旋缝Spiral Seam265SPR气液分离器Separator266SR过滤器Strainer267SR应力消除Stress relief268SRB桶式过滤器Bucket type strainer269SRT T型过滤器T-type strainer270SRY Y型过滤器Y-type strainer271SS不锈钢Stainless steel272ST蒸汽疏水阀Steam trap273STD标准Standard274STRU构架(构筑物)Structure275SUC吸入(口)Suction276SV安全阀Safety valve277SW承插焊Socket welding278SWF承插焊法兰Socket welding flange 279SWG缠绕式垫片Spiral wound gasket 280SWSR弹簧垫圈Spring washer281SYM对称Symmertrical282T三通Tee283T温度Temperature284TE螺纹端口Threaded end285TBE两端螺纹端口Threaded both end286TF螺纹法兰Threaded flange287T管道伴热(冷)Tracing288T&L伴热Tracing and insulation 289TB花篮螺母Turnbuckle290TEG聚四氟乙烯包复垫片PTFF envelope gasket 291TF榫面Tongur face292TG榫槽面Tongue and groove face 293THK壁厚Thickness294THR螺纹Thread295TL切线Tangent line296TOP管顶Top of pipe297TOS支架顶Top of support298TSR临时过滤器Temporary strainer299TW定位焊Tack welding300TWV三通阀Three way valve301UC公用工程接头Utility connection302UG地下Underground303UI(UT)超声探伤Ultrasonic inspection 304UN活接头Union305UTL公用系统Utility306V垂直/铅直/直立Vertical307VE外观检查Visual examination308VT放气Vent309W焊接Welding310W西West311W/E设备带来With equipment312W/I仪表带来With instrument313WNF对焊法兰Welding neck flange 314WSR垫圈Wahser315WT重量Weight316WW焊丝Welding wire317XRF X光X-ray fluorescenue318XS加强Extra strong319XXS特强Dpuble extra strong。
EM88F752N
LM134H中文资料
LM134/LM234/LM3343-Terminal Adjustable Current SourcesGeneral DescriptionThe LM134/LM234/LM334are 3-terminal adjustable current sources featuring 10,000:1range in operating current,excel-lent current regulation and a wide dynamic voltage range of 1V to 40V.Current is established with one external resistor and no other parts are required.Initial current accuracy is ±3%.The LM134/LM234/LM334are true floating current sources with no separate power supply connections.In addi-tion,reverse applied voltages of up to 20V will draw only a few dozen microamperes of current,allowing the devices to act as both a rectifier and current source in AC applications.The sense voltage used to establish operating current in the LM134is 64mV at 25˚C and is directly proportional to abso-lute temperature (˚K).The simplest one external resistor connection,then,generates a current with ≈+0.33%/˚C tem-perature dependence.Zero drift operation can be obtained by adding one extra resistor and a diode.Applications for the current sources include bias networks,surge protection,low power reference,ramp generation,LED driver,and temperature sensing.The LM234-3and LM234-6are specified as true temperature sensors with guaranteed initial accuracy of ±3˚C and ±6˚C,respectively.These devices are ideal in remote sense applications be-cause series resistance in long wire runs does not affect ac-curacy.In addition,only 2wires are required.The LM134is guaranteed over a temperature range of −55˚C to +125˚C,the LM234from −25˚C to +100˚C and the LM334from 0˚C to +70˚C.These devices are available in TO-46hermetic,TO-92and SO-8plastic packages.Featuresn Operates from 1V to 40V n 0.02%/V current regulationn Programmable from 1µA to 10mA n True 2-terminal operationn Available as fully specified temperature sensor n±3%initial accuracyConnection DiagramsSO-8Surface Mount PackageDS005697-24Order Number LM334M orLM334MXSee NS Package Number M08ASO-8Alternative Pinout Surface Mount PackageDS005697-25Order Number LM334SM orLM334SMXSee NS Package Number M08ATO-46Metal Can PackageDS005697-10Bottom ViewOrder Number LM334Z,LM234Z-3or LM234Z-6See NS Package Number Z03AMarch 2000LM134/LM234/LM3343-Terminal Adjustable Current Sources©2000National Semiconductor Corporation Absolute Maximum Ratings (Note 1)If Military/Aerospace specified devices are required,please contact the National Semiconductor Sales Office/Distributors for availability and specifications.V +to V −Forward Voltage LM134/LM234/LM33440V LM234-3/LM234-630V V +to V −Reverse Voltage 20V R Pin to V −Voltage 5V Set Current10mA Power Dissipation400mW ESD Susceptibility (Note 6)2000VOperating Temperature Range (Note 5)LM134−55˚C to +125˚CLM234/LM234-3/LM234-6−25˚C to +100˚C LM3340˚C to +70˚C Soldering InformationTO-92Package (10sec.)260˚C TO-46Package (10sec.)300˚C SO PackageVapor Phase (60sec.)215˚C Infrared (15sec.)220˚C See AN-450“Surface Mounting Methods and Their Effect on Product Reliability”(Appendix D)for other methods of sol-dering surface mount devices.Electrical Characteristics (Note 2)ParameterConditionsLM134/LM234LM334Units MinTypMax MinTypMax Set Current Error,V +=2.5V,10µA ≤I SET ≤1mA 36%(Note 3)1mA <I SET ≤5mA 58%2µA ≤I SET <10µA 812%Ratio of Set Current to 100µA ≤I SET ≤1mA 141823141826Bias Current1mA ≤I SET ≤5mA 14142µA ≤I SET ≤100µA 18231826Minimum Operating Voltage2µA ≤I SET ≤100µA 0.80.8V 100µA <I SET ≤1mA0.90.9V 1mA <I SET ≤5mA1.0 1.0V Average Change in Set Current 2µA ≤I SET ≤1mA with Input Voltage1.5≤V +≤5V 0.020.050.020.1%/V 5V ≤V +≤40V 0.010.030.010.05%/V 1mA <I SET ≤5mA 1.5V ≤V ≤5V 0.030.03%/V 5V ≤V ≤40V0.020.02%/VTemperature Dependence of 25µA ≤I SET ≤1mA0.96TT1.04T0.96TT1.04T Set Current (Note 4)Effective Shunt Capacitance1515pFNote 1:.“Absolute Maximum Ratings”indicate limits beyond which damage to the device may occur.Operating Ratings indicate conditions for which the device is functional,but do not guarantee specific performance limits.Note 2:Unless otherwise specified,tests are performed at T j =25˚C with pulse testing so that junction temperature does not change during testNote 3:Set current is the current flowing into the V +pin.For the Basic 2-Terminal Current Source circuit shown on the first page of this data sheet.I SET is determined by the following formula:I SET =67.7mV/R SET (@25˚C).Set current error is expressed as a percent deviation from this amount.I SET increases at 0.336%/˚C @T j =25˚C (227µV/˚C).Note 4:I SET is directly proportional to absolute temperature (˚K).I SET at any temperature can be calculated from:I SET =I o (T/T o )where I o is I SET measured at T o (˚K).Note 5:For elevated temperature operation,T J max is:LM134150˚C LM234125˚C LM334100˚CThermal Resistance TO-92TO-46SO-8θja (Junction to Ambient)180˚C/W (0.4"leads)440˚C/W165˚C/W160˚C/W (0.125"leads)θjc (Junction to Case)N/A32˚C/W80˚C/WNote 6:Human body model,100pF discharged through a 1.5k Ωresistor.L M 134/L M 234/L M 334 2LM134/LM234/LM334 Electrical Characteristics(Note2)Parameter Conditions LM234-3LM234-6UnitsMin Typ Max Min Typ Max±1±2%Set Current Error,V+=2.5V,100µA≤I SET≤1mA(Note3)T J=25˚Equivalent Temperature Error±3±6˚CRatio of Set Current to100µA≤I SET≤1418261418261mABias CurrentMinimum Operating Voltage100µA I SET≤1mA0.90.9V Average Change in Set Current100µA≤I SET≤1mAwith Input Voltage 1.5≤V+≤5V0.020.050.020.01%/V5V≤V+≤30V0.010.030.010.05%/V Temperature Dependence of100µA≤I SET≤0.98T T 1.02T0.97T T 1.03T1mASet Current(Note4)andEquivalent Slope Error±2±3% Effective Shunt Capacitance1515pF3Typical Performance CharacteristicsOutput ImpedanceDS005697-30Maximum Slew Rate Linear OperationDS005697-31Start-Up DS005697-32Transient ResponseDS005697-33Voltage Across R SET (V R )DS005697-34Current NoiseDS005697-35L M 134/L M 234/L M 334 4Typical Performance Characteristics(Continued)Application HintsThe LM134has been designed for ease of application,but ageneral discussion of design features is presented here tofamiliarize the designer with device characteristics whichmay not be immediately obvious.These include the effectsof slewing,power dissipation,capacitance,noise,and con-tact resistance.CALCULATING R SETThe total current through the LM134(I SET)is the sum of thecurrent going through the SET resistor(I R)and the LM134’sbias current(I BIAS),as shown in Figure1.A graph showing the ratio of these two currents is suppliedunder Ratio of I SET to I BIAS in the Typical PerformanceCharacteristics section.The current flowing through R SET isdetermined by V R,which is approximately214µV/˚K(64mV/298˚K∼214µV/˚K).Since(for a given set current)I BIAS is simply a percentage ofI SET,the equation can be rewrittenwhere n is the ratio of I SET to I BIAS as specified in the Elec-trical Characteristics Section and shown in the graph.Sincen is typically18for2µA≤I SET≤1mA,the equation can befurther simplified tofor most set currents.SLEW RATEAt slew rates above a given threshold(see curve),theLM134may exhibit non-linear current shifts.The slewingrate at which this occurs is directly proportional to I SET.AtI SET=10µA,maximum dV/dt is0.01V/µs;at I SET=1mA,thelimit is1V/µs.Slew rates above the limit do not harm theLM134,or cause large currents to flow.THERMAL EFFECTSInternal heating can have a significant effect on current regu-lation for I SET greater than100µA.For example,each1V in-crease across the LM134at I SET=1mA will increase junc-tion temperature by≈0.4˚C in still air.Output current(I SET)has a temperature coefficient of≈0.33%/˚C,so the change incurrent due to temperature rise will be(0.4)(0.33)=0.132%.This is a10:1degradation in regulation compared to trueelectrical effects.Thermal effects,therefore,must be takeninto account when DC regulation is critical and I SET exceeds100µA.Heat sinking of the TO-46package or the TO-92leads can reduce this effect by more than3:1.SHUNT CAPACITANCEIn certain applications,the15pF shunt capacitance of theLM134may have to be reduced,either because of loadingproblems or because it limits the AC output impedance of thecurrent source.This can be easily accomplished by bufferingthe LM134with an FET as shown in the applications.Thiscan reduce capacitance to less than3pF and improve regu-lation by at least an order of magnitude.DC characteristics(with the exception of minimum input voltage),are not af-fected.Turn-On VoltageDS005697-29Ratio of I SET to I BIASDS005697-3DS005697-27FIGURE1.Basic Current SourceLM134/LM234/LM3345Application Hints(Continued)NOISECurrent noise generated by the LM134is approximately 4times the shot noise of a transistor.If the LM134is used as an active load for a transistor amplifier,input referred noise will be increased by about 12dB.In many cases,this is ac-ceptable and a single stage amplifier can be built with a volt-age gain exceeding 2000.LEAD RESISTANCEThe sense voltage which determines operating current of the LM134is less than 100mV.At this level,thermocouple or lead resistance effects should be minimized by locating the current setting resistor physically close to the device.Sock-ets should be avoided if possible.It takes only 0.7Ωcontact resistance to reduce output current by 1%at the 1mA level.SENSING TEMPERATUREThe LM134makes an ideal remote temperature sensor be-cause its current mode operation does not lose accuracy over long wire runs.Output current is directly proportional to absolute temperature in degrees Kelvin,according to the fol-lowing formula:Calibration of the LM134is greatly simplified because of the fact that most of the initial inaccuracy is due to a gain term (slope error)and not an offset.This means that a calibration consisting of a gain adjustment only will trim both slope and zero at the same time.In addition,gain adjustment is a one point trim because the output of the LM134extrapolates to zero at 0˚K,independent of R SET or any initial inaccuracy.This property of the LM134is illustrated in the accompanying graph.Line abc is the sensor current before trimming.Line a'b'c'is the desired output.A gain trim done at T2will move the output from b to b'and will simultaneously correct the slope so that the output at T1and T3will be correct.This gain trim can be done on R SET or on the load resistor used to terminate the LM134.Slope error after trim will normally be less than ±1%.To maintain this accuracy,however,a low temperature coefficient resistor must be used for R SET .A 33ppm/˚C drift of R SET will give a 1%slope error because the resistor will normally see about the same temperature variations as the LM134.Separating R SET from the LM134requires 3wires and has lead resistance problems,so is not normally recommended.Metal film resistors with less than 20ppm/˚C drift are readily available.Wire wound resistors may also be used where best stability is required.APPLICATION AS A ZERO TEMPERATURE COEFFICENT CURRENT SOURCEAdding a diode and a resistor to the standard LM134con-figuration can cancel the temperature-dependent character-istic of the LM134.The circuit shown in Figure 3balances the positive tempco of the LM134(about +0.23mV/˚C)with the negative tempco of a forward-biased silicon diode (about −2.5mV/˚C).The set current (I SET )is the sum of I 1and I 2,each contribut-ing approximately 50%of the set current,and I BIAS .I BIAS is usually included in the I 1term by increasing the V R value used for calculations by 5.9%.(See CALCULATING R SET .)The first step is to minimize the tempco of the circuit,using the following equations.An example is given using a value of +227µV/˚C as the tempco of the LM134(which includes the I BIAS component),and −2.5mV/˚C as the tempco of the di-ode (for best results,this value should be directly measured or obtained from the manufacturer of the diode).With the R 1to R 2ratio determined,values for R 1and R 2should be determined to give the desired set current.The formula for calculating the set current at T =25˚C is shown below,followed by an example that assumes the forward voltage drop across the diode (V D )is 0.6V,the voltage across R 1is 67.7mV (64mV +5.9%to account for I BIAS ),and R 2/R 1=10(from the previous calculations).DS005697-4FIGURE 2.Gain AdjustmentDS005697-28FIGURE 3.Zero Tempco Current SourceL M 134/L M 234/L M 3346Application Hints(Continued)This circuit will eliminate most of the LM134’s temperaturecoefficient,and it does a good job even if the estimates of thediode’s characteristics are not accurate(as the following ex-ample will show).For lowest tempco with a specific diode atthe desired I SET,however,the circuit should be built andtested over temperature.If the measured tempco of I SET ispositive,R2should be reduced.If the resulting tempco isnegative,R2should be increased.The recommended diodefor use in this circuit is the1N457because its tempco is cen-tered at11times the tempco of the LM134,allowing R2=10R1.You can also use this circuit to create a current sourcewith non-zero tempcos by setting the tempco component ofthe tempco equation to the desired value instead of0.EXAMPLE:A1mA,Zero-Tempco Current SourceFirst,solve for R1and R2:The values of R1and R2can be changed to standard1%re-sistor values(R1=133Ωand R2=1.33kΩ)with less than a0.75%error.If the forward voltage drop of the diode was0.65V instead ofthe estimate of0.6V(an error of8%),the actual set currentwill bean error of less than5%.If the estimate for the tempco of the diode’s forward voltagedrop was off,the tempco cancellation is still reasonably ef-fective.Assume the tempco of the diode is2.6mV/˚C insteadof2.5mV/˚C(an error of4%).The tempco of the circuit isnow:A1mA LM134current source with no temperature compen-sation would have a set resistor of68Ωand a resultingtempco ofSo even if the diode’s tempco varies as much as±4%fromits estimated value,the circuit still eliminates98%of theLM134’s inherent tempco.Typical ApplicationsGround Referred Fahrenheit ThermometerDS005697-15*Select R3=V REF/583µA.V REF may be any stable positive voltage≥2VTrim R3to calibrateLM134/LM234/LM3347Typical Applications(Continued)Terminating Remote Sensor for VoltageOutputDS005697-14Low Output ImpedanceThermometerDS005697-6 *Output impedance of the LM134at the“R”pin isapproximatelyTypical Applications(Continued)Micropower BiasDS005697-17Low Input Voltage Reference DriverDS005697-18Ramp GeneratorDS005697-19LM134/LM234/LM3349Typical Applications(Continued)1.2V Reference Operates on 10µA and 2VDS005697-20*Select ratio of R1to R2to obtain zero temperature drift1.2V Regulator with 1.8V Minimum InputDS005697-7*Select ratio of R1to R2for zero temperature driftZener Biasing DS005697-49Alternate Trimming Technique DS005697-50*For ±10%adjustment,select R SET 10%high,and make R1≈3R SETBuffer for Photoconductive CellDS005697-51FET Cascoding for Low Capacitance and/or Ultra High Output ImpedanceDS005697-21*Select Q1or Q2to ensure at least 1V across the LM134.V p (1−I SET /I DSS )≥1.2V.DS005697-22L M 134/L M 234/L M 334 10Typical Applications(Continued)Schematic DiagramGenerating Negative Output ImpedanceDS005697-23*Z OUT ≈−16•R1(R1/V IN must not exceed I SET )In-Line Current LimiterDS005697-9*Use minimum value required to ensure stability of protected device.This minimizes inrush current to a direct short.DS005697-11LM134/LM234/LM33411Physical Dimensionsinches (millimeters)unless otherwise notedOrder Number LM134H,LM234H or LM334HNS Package Number H03HL M 134/L M 234/L M 334 12Physical Dimensionsinches (millimeters)unless otherwise noted (Continued)SO Package (M)Order Number LM334M,LM334MX,LM334SM or LM334SMX NS Package Number M08AOrder Number LM334Z,LM234Z-3or LM234Z-6NS Package Number Z03ALM134/LM234/LM33413NotesLIFE SUPPORT POLICYNATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION.As used herein:1.Life support devices or systems are devices or systems which,(a)are intended for surgical implant into the body,or (b)support or sustain life,and whose failure to perform when properly used in accordance with instructions for use provided in the labeling,can be reasonably expected to result in a significant injury to the user.2.A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system,or to affect its safety or effectiveness.National Semiconductor Corporation AmericasTel:1-800-272-9959Fax:1-800-737-7018Email:support@National Semiconductor EuropeFax:+49(0)180-5308586Email:europe.support@Deutsch Tel:+49(0)6995086208English Tel:+44(0)8702402171Français Tel:+33(0)141918790National Semiconductor Asia Pacific Customer Response Group Tel:65-2544466Fax:65-2504466Email:ap.support@National Semiconductor Japan Ltd.Tel:81-3-5639-7560Fax:81-3-5639-7507L M 134/L M 234/L M 3343-T e r m i n a l A d j u s t a b l e C u r r e n t S o u r c e sNational does not assume any responsibility for use of any circuitry described,no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.。
带表头温度变送器
产品特点 测温探头采用高阻型 Pt1000 铂电阻,精度
高, 稳定性好;温度转换模块采用树脂浇注工艺,防 震、防潮;集传感变送于一体,结构紧凑,安装
方便, 精度高、功耗低;电流输出型适合长距离传
送,抗电磁干扰电路设计,保证变送器在受到各种 干扰下能够安全可靠的工作,适于现代电磁污染
T0 T1 T2 T3 T4 T5
Y
W
说
明
IP65
隔爆DⅡBT4 本安防爆ExiaⅡCT6 无
RS485
RS232 HarT 通讯 指定
0.1%
0.2%
0.25%
0.5%
1.0% LCD显示 LED显示
线性100%指针
M20×1.5
G1/2
M27×2 3月4日 指定
铠装(防震)
双层护管
锥度抗压
可弯曲
HT122 直角式温度传感器
HT123 锥形温度传感器
HT124 防腐型温度传感器
HT125 耐磨型温度传感器
HT126 食品机械专用温度传感器
HT127 高温型温度传感器
HT128 高温铠装温度传感器
HT129 高温型温度传感器
HT130 隔爆型温度传感器
HT131 隔爆铠装温度传感器 HT-144热量计专用配对温度传感器
YP42:内屏蔽四氟二芯 YP43;内屏蔽四氟三芯
YP46:内屏蔽四氟六芯 PY42:外屏蔽四氟二芯
PY43:外屏蔽四氟三芯
PY46:外屏蔽四氟六芯"
W0:无要求、W1:单只、W2:双只、
W3:3只、WX:指定
F F0:无要求、F11:直接引线、F12:航插式(Ø12) F13:航插式(Ø18)F14:手柄式、F15:锥柄式、
电视中英文对照表
57 BCT;BCUT;BCUT OFF;B-
58 CUTOFF
59 BCW 亮度控制范围
60 BD;BDR;B-DRIVE;BDRV; 蓝激励;显像管亮平衡蓝激励调整
61 BDRY
62 BEL;BELL;BELLFO;BELL FILTER SECAM钟型滤波器
63 BG B.G伴音制式设置
64 BG;B - GAIN 蓝激励;显像管亮平衡蓝激励调整
41 AV MODE AV模式
42 AV SHARPNESS AV锐度
43 AV TINT AV色调
44 AVI ONLY Y/YN 可选择一路AV或两路AV输入
45 AV-MODE AV模式
46 AX AGC删除
47 B;B- 显像管亮平衡蓝色调整
48 B BIAS;B_;B CUT OFF 蓝偏置;显像管阿暗平衡蓝色调整
107 SUB SHARP;SUB-SHARTNESS 副锐度
108 SUB TINT 副色调
109 SUB-VOLUME 副音量
110 SUPER WIDE GEOMETRY 超宽屏幕几何失真
111 SURROUND 环绕声
112 SV4 4.43AV(视频)副清晰度(中心值)
113 SX4 4.43副清晰度最大值
239 CRH;CRL 设定字符高(低) 241 CSD 字符的显示位置 243 C-SYSTEM 彩色制式 245 CUT-OFF 截止;显像管截止点调整(暗平衡调整) 247 DATA 数据 249 D-B 显像管亮平衡蓝色调整 251 DC RED PAL 红枪截止(显像管暗平衡)调整 253 DEFECT MODULE 产生故障的电路组件 255 DELTA COOL 偏冷色(白平衡) 257 DELTA WARM 偏暖色白平衡 259 DEMP FO 去加重频率 261 DID 消磁关闭 263 DIGITAL SCAN 数字扫描 265 DK D/K伴音制式设置 267 DPC 枕形失真校正(东芝);动态图像ON/OFF(索尼) 269 DPI;D-PIC 动态图像 271 DRG SW 以红枪或绿枪为准(DRGSW用于转换显像管红 绿枪,按遥控器电平增/减键在R、G(红、枪)之间转变) 273 DSHFT 直流电平移(水平静会聚微调) 275 DT BW 黑白延时 277 EAST/WEST CORNER 光栅四角调整 279 EAST/WEST TOP COMPENSATION 光栅顶部补偿 281 EEPROM 电可檫可编程存储器 283 EHH;EHV 高压对光栅行幅(场幅)的影响 285 EQ+DOLBY 均衡器+杜比 287 ER;ERR;ERRORS 故障;错误;故障自检代码 289 EURO AV 欧洲标准AV输入 291 EVOL 外接信号预置音量 293 EW-CORNER 光栅左右角部失真 295 F TRAP 陷波微调 297 FBP BL SW 行逆程脉冲消隐开关 299 FEATURE-BOX 特色电路组件 301 FILT;FILTER;FLT 滤波器 303 FM GAIN 调频伴音增益 305 FMA 调频伴音衰减电平 307 FRAME 桢;框 309 FSW 强制开关 311 FUNCTIONAL TEST 功能测试 313 G 绿;显像管亮平衡绿色调整 315 G DRIVE;G DRIVE GAIN 绿色激励(CRT亮平衡绿色 调整 3179 GDAT;EGPDURL;SEG选DR通V脉绿冲激励;显像管亮平衡绿色调整 321 GEOMETRIC;GEOMETRY 光栅几何失真 323 GLOBAL 全球;全球立体声 325 GREEN 绿 327 H AFC 行AFC(增益) 329 H BLANK L;H BLK L 行左消隐;左黑边调整 331 H BLK PHASE50 50Hz行消隐相位 333 H FREQ 行频 335 H POSITION 行中心;(字符)水平位置 337 H AMP H.AMP(行幅) 339 HALF TONE SW 半色调增益选择 341 HBS 行消隐宽度ON/OFF 343 HC;H-C;H-CENTER 行中心 345 H-COMPENSATION 行补偿 347 H-CORRECT 水平校正 349 HD 行中心(飞利浦) 351 HI BLUE 显像管亮平衡蓝色调整 353 HI GREEN 显像管亮平衡绿色调整 355 HITS 60Hz场扫描场幅校正数据;50/60Hz场幅差异 357 HOR 水平;行;画中画左右对称(海信)
(完整word版)ECE系列标准清单
(完整word版)ECE系列标准清单ECE系列标准序号代号法规名称1 ECE R1 关于批准发射不对称近光和/或远光并装有R2/或HS1类灯丝灯泡的机动车前照灯的统一规定2 ECE R2 关于批准发射不对称近光和/或远光的前照灯用白炽电灯泡的统一规定3 ECE R3 关于批准机动车辆及其挂车回复反射装置的统一规定4 ECE R4 关于批准机动车辆(摩托车除外)及其挂车后牌照板照明装置的统一规定5 ECE R5 关于批准发射欧洲型不对称近光和/或远光机动车封闭式前照灯(SB) 的统一规定6 ECE R6 关于批准机动车及其挂车转向指示器的统一规定7 ECE R7 关于批准机动车(不含摩托车)及其挂车前后位置(侧边)灯、制动灯和示廓灯的统一规定8 ECE R8 关于批准发射不对称近光和/或远光并装有卤素灯丝灯泡(H1、H2、H3、HB3、HB4、H7、H8、H9、HIR1、HIR2和/或H11)的机动车前照灯的统一规定9 ECE R9 关于就噪声方面批准L2、L4和L5类车辆的统一规定10 ECE R10 关于就电磁兼容性方面批准车辆的统一规定11 ECE R11 关于就门锁和车门保持件方面批准车辆的统一规定12 ECE R12 关于就碰撞中防止转向机构伤害驾驶员方面批准车辆的统一规定13 ECE R13 关于就制动方面批准M类、N类和O类车辆的统一规定14 ECE R13--H 关于就制动方面批准乘用车的统一规定(欧美日协调版)15 ECE R14 关于就安全带固定点方面批准车辆的统一规定16 ECE R15 关于就发动机气体污染物排放方面批准装有点火式发动机或压燃式发动机的车辆的统一规定--点火式发动机的功率测量方法---车辆的油耗测量方法17 ECE R16 关于:1批准机动车成年乘客用安全带和约束系统;2批准装用安全带的车辆的统一规定18 ECE R17 关于就座椅、座椅固定点和头枕方面批准车辆的统一规定19 ECE R18 关于就防盗方面批准机动车的统一规定20 ECE R19 关于批准机动车前雾灯的统一规定21 ECE R20 关于批准发射非对称近光和/或远光并装有卤素灯丝灯泡(H4)的机动车前照灯的统一规定22 ECE R21 关于就内饰件方面批准车辆的统一规定23 ECE R22 关于批准摩托车轻便摩托车驾驶员及乘客用头盔和面罩的统一规定24 ECE R23 关于批准机动车辆及其挂车的倒车灯的统一规定25 ECE R24 关于1.就可见污染物排放方面批准压燃式(C.I)发动机;2.就已获得型式批准的C.I.发动机的安装方面批准机动车; 3. 就发动机可见污染物排放方面批准装用C.I.发动机的车辆; 4 .C.I.发动机的功率测量的统一规定26 ECE R25 关于批准与车辆座椅一体或非一体的头枕的统一规定27 ECE R26 关于就外部凸出物方面批准车辆的统一规定28 ECE R27 关于批准提前三角警告牌的统一规定29 ECE R28 关于就声响信号方面批准声报警装置和机动车辆的统一规定30 ECE R29 关于就商用车辆驾驶室乘员防护方面批准车辆的统一规定31 ECE R30 关于批准机动车及其挂车气压轮胎的统一规定32 ECE R31 关于批准发射非对称近光和/或远光的卤素封闭式(HSB)机动车前照灯的统一规定33 ECE R32 关于就追尾碰撞中被撞车辆的结构特性方面批准车辆的统一规定34 ECE R33 关于就正面冲撞中被撞的结构特性方面批准车辆的统一规定35 ECE R34 关于就火灾预防方面批准车辆的统一规定36 ECE R35 关于就脚控制件的布置方面批准车辆的统一规定37 ECE R36 关于就一般结构方面批准大型客车的统一规定38 ECE R37 关于批准用于已经批准的机动车和挂车灯具中的白炽灯的统一规定39 ECE R38 关于批准机动车和挂车后雾灯的统一规定40 ECE R39 关于就车速表及其安装方面批准车辆的统一规定41 ECE R40 关于就发动机气体污染物的排放方面批准装有点火式发动机的摩托车的统一规定42 ECE R41 关于就噪声方面批准摩托车的统一规定43 ECE R42 关于就车辆前、后保护装置(保险杠等)批准车辆的统一规定44 ECE R43 关于批准安全玻璃材料的统一规定45 ECE R44 关于批准机动车儿童乘客约束装置(儿童约束系统)的统一规定46 ECE R45 关于就前照灯清洗器方面批准机动车辆和批准前照灯清洗器的统一规定47 ECE R46 关于批准后视镜和就后视镜的安装方面批准机动车辆的统一规定48 ECE R47 关于就发动机的气体污染物排放方面批准装有点火发动机的轻便摩托车的统一规定49 ECE R48 关于就灯光和光信号装置的安装方面批准车辆的统一规定50 ECE R49 关于就发动机污染物排放方面批准压燃式发动机、天然气发动机和燃用液化石油气的点燃式发动机以及装有这些发动机的车辆的统一规定51 ECE R50 关于批准轻便摩托车、摩托车及其类似车辆前后位置灯、制动灯、转向信号灯和后牌照板照明装置的统一规定52 ECE R51 关于就噪声排放方面批准四轮及四轮以上机动车的统一规定53 ECE R52 关于就一般结构方面批准小型公共运输车辆(M2、M3)的统一规定54 ECE R53 关于就灯光及光信号装置的安装方面批准L3类车辆(摩托车)的统一规定55 ECE R54 关于批准商用车辆及其挂车气压轮胎的统一规定56 ECE R55 关于批准汽车列车机械联结件的统一规定57 ECE R56 关于批准轻便摩托车以及类似车辆前照灯的统一规定58 ECE R57 关于批准摩托车以及类似车辆前照灯的统一规定59 ECE R58 关于1.批准后下部防护装置; 2.就已批准的后下部防护装置的安装方面批准车辆;3.就后下部防护装置方面批准车辆的统一规定60 ECE R59 关于批准备用消声系统的统一规定61 ECE R60 关于就驾驶员操纵的控制件,包括控制件、信号装置和指示器的识别方面批准两轮摩托车的统一规定62 ECE R61 关于就驾驶室后挡板之前的外部凸出物方面批准商用车的统一规定63 ECE R62 关于就防盗方面批准带有操纵把的机动车的统一规定64 ECE R63 关于就噪声方面批准两轮轻便摩托车的统一规定65 ECE R64 关于批准装有应急备用车轮/轮胎的车辆的统一规定66 ECE R65 关于批准机动车特别警告灯的统一规定67 ECE R66 关于就上部结构强度方面批准大型客车的统一规定68 ECE R67 关于:1批准在其驱动系统中使用液化石油气的机动车辆特殊装置;2 在这一装置的安装方面批准装用使其驱动系统使用液化石油气的特殊装置的车辆的统一规定69 ECE R68 关于就最大车速的测量方面批准包括纯电动车辆在内的机动车的统一规定70 ECE R69 关于批准低速车辆及其挂车后标志牌的统一规定71 ECE R70 关于批准重,长型车辆后标志牌的统一规定72 ECE R71 关于就驾驶员视野方面批准农用拖拉机的统一规定73 ECE R72 关于批准发射非对称近光和远光并装有卤素灯(HS1灯)的摩托车前大灯统一规定74 ECE R73 关于就侧防护方面批准货车、挂车和半挂车的统一规定75 ECE R74 关于就灯光和光信号装置方面批准L1类车辆的统一规定76 ECE R75 关于批准摩托车和轻便摩托车气压轮胎的统一规定77 ECE R76 关于批准发射远光和近光的轻便摩托车前照灯的统一规定78 ECE R77 关于批准机动车驻车灯的统一规定79 ECE R78 关于就制动方面批准L类车辆的统一规定80 ECE R79 关于就转向装置方面批准车辆的统一规定81 ECE R80 关于就座椅及其固定点方面批准大型客车座椅和车辆的统一规定82 ECE R81 关于就车把上后视镜的安装方面批准后视镜及带与不带边斗的二轮机动车的统一规定83 ECE R82 关于批准装有卤素灯丝灯泡(HS2)的轻便摩托车前照灯的统一规定84 ECE R83 关于根据发动机燃油要求就污染物排放方面批准车辆的统一规定85 ECE R84 关于就油耗测量方面批准装有内燃机的机动车的统一规定86 ECE R85 关于就净功率和最大30分钟电传动系功率的测量方面批准用于驱动M和N类机动车辆的内燃机或电传动系的统一规定87 ECE R86 关于就灯光和光信号装置的安装方面批准农林拖拉机的统一规定88 ECE R87 换向批准机动车白天行车灯的统一规定89 ECE R88 关于批准摩托车反光轮胎的统一规定90 ECE R89 关于1.就最高车速限制或其可调车速限制功能方面批准车辆;2.就已批准型式的最高车速限制装置或可调车速限制装置的安装方面批准车辆;3.批准车速限制装置或可调车速限制装置的统一规定91 ECE R90 关于批准机动车辆及其挂车用可更替制动衬片总成和鼓式制动器衬片的统一规定92 ECE R91 关于批准机动车及其挂车侧标志灯的统一规定93 ECE R92 关于批准摩托车、轻便摩托车和三轮车辆非原装可更换排气消声系统的统一规定94 ECE R93 关于1.批准前下部防护装置; 2.就已批准型式的前下部防护装置的安装方面批准车辆;3.就前下部防护方面批准车辆的统一规定95 ECE R94 关于就前碰撞中乘员防护方面批准车辆的统一规定96 ECE R95 关于就侧碰撞中乘员防护方面批准车辆的统一规定97 ECE R96 关于就发动机污染物排放方面批准农林拖拉机和非道路机动机械装用的压燃式发动机的统一规定98 ECE R97 关于批准车辆报警系统和就报警系统方面批准机动车辆的统一规定99 ECE R98 关于批准装用气体放电光源的机动车前照灯的统一规定100 ECE R99 关于批准用于已获得型式批准的机动车气体放电灯具的气体放电光源的统一规定101 ECE R100 关于就结构、功能安全性和氢排放的特殊要求方面批准蓄电池电动车辆的统一规定102 ECE R101 关于就CO2排放和油耗的测量方面批准装用内燃机的乘用车和就电能消耗量和范围的测量方面批准装用电传动系的M1和N1类车辆的统一规定103 ECE R102 关于1.批准紧耦合装置;2.就已批准的紧耦合装置的安装方面批准车辆的统一规定。
BT134可控硅
100
50
20
200
V/μ s
佛 山 市 蓝 箭 电 子 有 限 公 司 FOSHAN BLUE ROCKET ELECTRONICS CO., LTD.
BT134
佛 山 市 蓝 箭 电 子 有 限 公 司 FOSHAN BLUE ROCKET ELECTRONICS CO., LTD.
极限参数/Absolute maximum ratings(Ta=25℃)
参数符号
Symbol
数值
Rating
单位
Unit
VDRM IT(RMS) ITSM(t=20ms) ITSM(t=16.7ms) I t(t=10ms) dIT/dt IGM VGM PGM PG(AV) Tj Tstg
2
500
… 35 35 35 70 20 30 20 30 15
最大值 MAX. …E …F 10 25 10 25 10 25 25 70 15 20 20 30 15 20 20 30 15 15 1.7 1.5 0.5
单位 Unit …G 50 50 50 100 20 45 30 45 30 mA mA mA mA mA mA mA mA mA V V V mA μs
600 4.0 25 27 3.1 50 2.0 5.0 5.0 0.5 125
800
V A A A AS A/μs A V W W ℃ ℃
2
-40~150
电性能参数/Electrical characteristics(Ta=25℃) 参数符号 测试条件 最小值 典型值 Symbol Test condition MIX. TYP. BT134… F/G …E VD=12V,IT=0.1A T2+G+ 5.0 2.5 IGT T2+G8.0 4.0 T2-G11 5.0 T2-G+ 30 11 VD=12V,IGT=0.1A T2+G+ 7.0 3.0 T2+G16 10 IL T2-G5.0 2.5 T2-G+ 7.0 4.0 IH VD=12V,IGT=0.1A 5.0 2.2 VT IT=5.0A 1.4 VD=12V,IT=0.1A 0.7 VGT (I-II-III) VD=400V,IT=0.1A,Tj=125℃ 0.25 0.4 ID VD=VDRM(MAX),Tj=125℃ 0.1 tgt ITM=6A,VD=VDRM,IG=0.1A, 2.0 dIg/dt=5A/μs dVD/dt VD=67% VDRM gate open 250 Tj=125℃
常用化工品英文缩写
过氧化特戊酸特丁酯 过氧化二碳酸二苯氧化酯 4’-硫代双(6-特丁基-3-甲基苯酚) 聚对苯二甲酸丁二醇酯 丁二烯橡胶 青红光硫化黑 二溴(代)甲酚环氧丙基醚 丁二烯-苯乙烯共聚物 新型密*胶 苯磺酰肼 N’-双(三甲基硅烷)脲 聚丁烯-1热塑性塑料 苯并三唑 苯-甲苯-二甲苯混合物 渗透剂 己二酸二丁基二甘酯 二正丁基二硫代氨基甲酸锌 醋酸纤维素 醋酸-丁酸纤维素 醋酸-硝酸纤维素 醋酸-丙酸纤维素 化学发泡剂 磷酸甲酚二苯酯 甲醛-甲酚树脂,碳纤维 氯氟乙烯 碳纤维密*填料 碳纤维增强塑料 含氯纤维 羧甲基纤维素 羧甲基纤维素钠 代尼尔纤维 羧甲基淀粉 富马酸二烯丙酯 间苯二甲酸二烯丙酯 马来酸二烯丙酯 间苯二甲酸二烯丙酯 四溴邻苯二甲酸二烯丙酯 己二酸二丁酯 邻苯二甲酸二丁氧乙酯 邻苯二甲酸二丁酯 二苯甲酰间苯二酚 癸二酸二癸酯 二氯异氰脲酸 二氯异氰脲酸钾 二氯异氰脲酸钠
Smartec S CLD134电导率E+H
报警信号 负载 输出范围
信号分辨率 绝缘电压 输出信号的最小间隔
2 μS/cm 20 μS/cm 200 μS/cm 2 mS/cm 20 mS/cm 200 mS/cm 无最小间距 15 °C (59 °F)
过电压保护 辅助电压输出
4
Endress+Hauser
Smartec S CLD134
触点输出
重复性 1)
电极常数 工作频率 ( 振荡器 ) 温度补偿
6.3 cm-1 2 kHz 范围: 补偿类型: -10 ... +150 °C (14 ... 302 °F) - 无 - 线性补偿,自由选择温度系数 - 仅一个自由编程设定的系数表 ( 带 “ 远程参数设定开关 ” 型号,提供 4 个设定表格 ) - NaCl 补偿,符合 IEC 746-3 标准 1K
1
5
电感式电导率测量 1 发生器 2 初级线圈 3 介质中的电流 4 次级线圈 5 接收器
2
4
电感式电导率测量的优点: • 无电极,因此无极化反应 • 可以对重度污染以及易沉淀的介质或溶液进 行高精度测量 • 测量和介质完全电气隔离
3
a0004894
Smartec S CLD134 的
重要特征
• 卫生型设计 PEEK 注塑传感器具有高化学稳定性、强抗机械变形能力及高耐热性。采用无接头、无缝结构设 计,具有高卫生安全性。接液部件采用专用的天然 PEEK 材料,确保了食品、饮料和制药行业中 的最高生物安全。传感器设计符合 ASME BPE ( 美国机械工程师协会 - 生物加工设备 ) 标准。 • 卫生型认证 传感器通过了卫生型行业要求的所有强制认证,例如:表面接液部件符合 FDA 材料认证和 3A 认 证。 CLS54 传感器的在线清洗功能通过 EHEDG 测试 ( 欧洲卫生工程设计组织 )。生物试验证书符 合 USP 标准第 87 部分及 88 部分的 VI 级标准要求,可溯源。 • 过程连接 传感器具有卫生型应用场合中常用的所有过程连接。大部分过程连接可以通过标准选型订购。 其他过程连接可以通过特殊选型向 Endress + Hauser 订购。 • 过程温度和过程压力 特殊成份和材料的传感器可以在 +125 °C (275 °F) 下连续工作。蒸汽消毒应用时,在短时间内 (max. 60 min.) 传感器可以在 +150 °C (300 °F) 下工作。传感器的最高压力可达 12 bar (174 psi), 最高温度可达 90 °C (194 °F)。在更高的温度下,传感器耐压高于相应的蒸汽压力。传感器可以 在负压条件下使用。 • 温度测量 传感器内置温度传感器,温度响应时间 t90 小于 26 s。因此,在快速变化的过程温度条件下,传感 器也可以经济、有效地完成相分离。温度传感器安装在 PEEK 传感器本体内,无需使用密封圈, 使用寿命长。 • 温度补偿 Smartec S CLD134 可以采用下列温度补偿方法: • 线性补偿,自由选择温度系数 • NaCl 补偿,符合 IEC 746-3 标准 • 补偿表,自由编程设置系数表,最多 10 个点 • 浓度测量 变送器可以在电导率测量模式和浓度测量模式间切换。在浓度测量模式下,可以自由编程设定 浓度曲线或预设定浓度曲线,使用常规 CIP 溶剂时尤为适用。因此,可以直接百分比 (%) 显示浓 度值。 • 远程参数设定开关 可以与 Smartec S CLD134 同时订购远程参数设定开关 (MRS:量程设定开关 ),用于: - 宽量程设定 - 介质改变后进行温度补偿方式调整 - 浓度曲线切换
FLUKE示波表的使用手册
此保修是买方唯一的索取补偿的权益。在多种其它明示或默示保修,包括但不只限于那些为推销产品或与特殊目的相配合的默示的保证,同时存在的情况下,应以 此保修为准。对于在违反保修条例、合同、条约、承诺或任何其它条文时发生的例外的、间接的、偶然的及随之引起的损坏或损失,其中包括数据的遗失,FLUKE 不承担任何责任。 由于某些国家(洲)不承认默示保修的界限或不容许有对例外或相应损失的排除,故此保修中的限制条例与例外处理并不适用于任何买方。若保修条款中任一条被法 院裁决无效,这一裁决将不影响其它条款的有效实施。
Fluke Corporation, P.O. Box 9090, Everett, WA 98206-9090 USA(美国)或 Fluke Industrial B.V., P.O. Box90, 7600 AB, Almelo, The Netherlands(荷兰)
服务中心
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®
Fluke 123/124
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用户手册
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«=OMMO=cäìâÉ=`çêéçê~íáçåK=版权所有。 所有产品名称均为其所属公司的商标。
有限保修及义务范围
在正常使用与维修情况下,cäìâÉ 保证每一个产品无质地及工艺问题。自发货之日算起,测试工具保修期为三年,附件保修期为一年。零配件及产品修理与维护的 保修期为 VM 天。此保修只限于原始购买者和 cäìâÉ 指定经销商的产品使用客户保修不适用于保险丝和普通电池,亦不适用于任何 cäìâÉ 认为因错误使用、改装、疏 忽或因事故或非正常条件下操作或处置而导致损坏之产品。在 VM 天内,cäìâÉ 保证软件运转符合功能规范,且保证软件正确录制于完好无损的介质上。cäìâÉ 不保 证软件毫无差错或无操作中断情况。 Fluke 指定经销商只能向客户对新的和未使用过的产品提供保修,而无权以 Fluke 名义扩充或更改保修内容。以 Fluke 指定的销售渠道购买的产品或按相应国际价格购 买的产品可以得到保修。当产品在一个国家购买而要送到另外一个国家去修理时,Fluke 保留收取修理/更换零件的权利。 对于在保修期内将有故障的产品送回维修中心,要求按原价退款、免费修理或更换,Fluke 的保修义务是有限的。 在需要获得保修服务时,请与就近的 Fluke 指定的维修中心联系,或在附上故障说明、邮费及预付保险(目的地交货价)后,将产品寄往就近的 Fluke 指定的维修中 心。对于运输中可能出现的损坏情况,Fluke 不承担任何风险。产品维修后,将寄回给客户,邮费预付(目的地交货价)。如果 Fluke 认为出现故障的原因是由于错误 使用、改装、事故或非正常情况下使用或操作,Fluke 将提供维修的估价并在得到认可后才进行维修。维修后,产品在由 Fluke 预付邮费后寄回给客户,客户须支付维 修和运输费用(起运点交货价)。
管件中英文对照表
●弯头 elbow异径弯头 reducing elbow带支座弯头 base elbow长半径弯头(标准1.5倍弯曲半径---1.5D)long radius elbow●三通 tee异径三通 reducing tee等径三通 straight tee带侧向口的三通(右向或左向) side outlet tee (right hand or 1eft hand)异径三通(分支口为异径) reducing tee (reducing onoutlet)异径三通(一个直通口为异径)reducing tee (reducing on one run)带支座三通 base tee异径三通(一个直通口及分支口为异径) reducing tee(reducing on one run and outlet)异径三通(两个直通口为异径,双头式) reducing tee(reducing on both runs, bull head)45°斜三通 45° lateral45°斜三通(支管为异径) 45° lateral (reducing on branch) 45°斜三通(一个直通口为异径) 45° lateral (reducing on one run)45°斜三通(一个直通口及支管为异径) 45° lateral (reducing on one run and branch)Y型三通(俗称裤衩) true “Y”四通 cross等径四通 straight cross异径四通 reducing cross异径四通(一个分支口为异径)reducing cross (reducing on one outlet)异径四通(一个直通口及分支口为异径) reducing cross (reducing on one run and outlet)异径四通(两个分支口为异径) reducing cross (reducing on both outlet)异径四通(一个直通口及两个分支口为异径) reducing cross (reducing on one run and both outlet)异径管 reducer同心异径管 concentric reducer偏心异径管 eccentric reducer锻制异径管 reducing swage螺纹支管台 threadolet焊接支管台 weldolet承插支管台 sockolet弯头支管台 elbolet斜接支管台 latrolet镶入式支管嘴 sweepolet短管支管台 nipolet支管台,插入式支管台 boss●螺纹支管台Threadolet●弯头支管台elbolet●焊接支管台weldolet;on weld●短管支管台nipolet●承插支管台sockolet●烧焊支管台weldolet●斜接支管台latrolet●承插焊支管台Sockolet支管台,插入式支管台boss管接头 coupling, full coupling 半管接头 half coupling异径管接头 reducing coupling活接头 union内外螺纹缩接(俗称补芯) bushing管帽 cap (C)堵头 plug短节 nipple异径短节 reducing nipple; swage nipple管道英文缩写A Anchor 固定ABS * Absolute 绝对的AISI *American Iron and Steel Institute美国钢铁学会ANSI * American National Standards Institute 美国国家标准学会API *American Petroleum Institute 美国石油学会APPROX *Approximate 大约,近似的ASB Asbestos 石棉ASME *American Society Of Mechanical Engineers美国机械工程师协会ASSY * Assembly 装配,组装ASTM * American Society Of Testing Material 美国材料实验协会ATM * Atmosphere 大气压AWG * American Wire Gage 美国线规AWS * American Wel**** Society 美国焊接协会AWWA * American Water Works Association 美国水工协会BBB Bolted Bonnet 栓柱连接的阀盖BB By Buyer 买方供货B-B Beveled End-Beveled End 两端为坡口端BC Bolt Circle 螺栓中心圆B.C Bolted Cover(cap) 螺栓连接的阀兰盖(帽)BE Beveled End (for wel****) 坡口(焊接用)B.E Bell End 承口BEP Both Ends Plain 两端平BET Both Ends Threaded 两端带螺纹BL Battery Limit 装置区边界BF Blind Flange 盲板法兰BLD Blind 盲板BLDG *Buil**** 建筑物BM Bill Of Material 材料表BOP Bottom Of Pipe 管底B-P Beveled End —Plain End 坡口端.平端BV Butterfly valve 蝶阀BWG * Birmingham Wire Gage 伯明翰线规BW Butt Weld 对焊CC Cap 管帽C-C Center to Center 中至中C-E Center to End 中至端面C-F Center to Face 中至面CH-OP Chain Operated 链条操纵的CH.PL Checkered Plate 花纹钢管C.I *Cast Iron 铸铁CL *Class 英制压力等级,等级,种类CLEAR Clearance 间隙COD Continued on Drawing 接续图COL *Column 柱,塔CONC Concentric 同心的CONN Connection 连接,接口CONT *Continue 连续CONT.V. Control Valve 控制阀CPLG Coupling 管接头,连轴节C.R. Concentric Reducer 同心异径管C.S. *Carbon Steel 碳钢C.S. Cold Spring 冷紧C.S.C. Car Seal Close 在关闭状态下封住C.S.O. Car Seal Open 在开启状态下封住CUST Customer 客CH Check Valve 止回阀DEG *Degree 度DF Drain funnel 排液漏斗DIA *Diameter 直径DIM *Dimension 尺寸DISCH *Discharge 出口,排出Diaphragm VELVE 隔膜阀DMF Double Male And Female 双重凹凸DN Norminal Diameter公称直径DN Down 下DR Drain 排液DS Directional Stop 定向限为架DWG * Drawing 图EE *East 东EC External Coating 外面涂防腐层ECC Eccentric 偏心EFW Electric Fusion Welded 电容焊的EL(ELEV) *Elevation 标高;立面ELL Elbow 弯头EQIOP Equipment设备,装置EQUIV Equivalent 相当的E.R. Eccentric Reducer 偏心异经管ERW Electric Resistance Welded 电阻焊的EW Eye Washer & Shower 洗眼器及淋浴器EXP.JT Expansion Joint 膨胀节FFDN Foundation基础FF Flat Faced Or Full Faced 全平面;满平面F-F Face To Face 面至面FGW Fusion Gas Wel**** 气熔焊FIG *Figure 图FL Floor 楼面FLEX TUBE Flexible Tube 挠性管FLG Flange 法兰FLGD Flanged 法兰式的FLGF Flanged Face 法兰面FOB Flat On Bottom 底面平FOT Flat On Top 顶面平FP Fix Point 固定点FS Forged Steel 锻钢FTF Fitting To Fitting 管件直连FTG Fitting 管件FURND Furnished 提供的,装设的FW Field Weld 现场焊G Guide 导向GA * Gage 表,表压,规(线规)GALV *Galvanize 镀锌GL Ground Level 地面GLV Globe Valve 截止阀GEAR OP Gear Operated 齿轮传动的GMAW Gas Metal Arc Wel**** 金属极惰气体保护焊GSKT Gasket 垫片GTAW (Inert)Gas Tungsten Arc Wel**** 惰性气体保护钨极电弧焊GV Gate Valve 闸阀HH Hanger 吊架HC Hose Connection 软管接头H.CPLG Half Coupling 半节管接头HDR Header 总管HEX *Hexagon 六角形HF Hard Alloy Face on阀内件(阀心)为Valve Trim 硬质合金密封面HH Hand Hole 手孔HOR Horizontal 水平的H.P * High Pressure 高压HS Hose Station 软管IID * Inside Diameter 内径IN * Inch 英寸INS Insulation 隔热INST Instrument仪表INV Invert (inside bottom of pipe) 管子内底IPS Iron Pipe size 铁管尺寸ISO Isometric Drawing周测图(空视图)I.S.B.L Inside Battery Limit 装置边界内恻ISNS Inside screw & Non-rising Stem 内螺纹非升杆ISRS Inside screw & Rising stem 内螺纹升杆JJT Joint 接头JS Jack Screw 顶开(起)螺栓LLC Locked Closed 在关闭状态下锁定LEP Large end plain 大端为平的LET Large end Threaded 大端带螺纹LG Long 长LGF Lens Gasket Face 透镜垫连接面L.H. THD Left Hand Thread 左螺纹LIFT Lift Type 升降式LJ Lap Joint 搭接LJF Lap Joint Flange 松套法兰LO Locked Open 在开启状态下锁定L.P. Low Pressure 低压LR Long Radius 长半径LRE Long Radius Elbow 长半径弯头LTG Large Tongue & Groove 大椎槽MMATL Material 材料MAX Maximum 最大MB Machine Bolt 机器螺栓(单头)MF Male and Female 凸和凹MFG Manufacture 制造MF * Manufacture 制造厂MH Manhole 人孔MI Malleable Iron 可锻铸铁MIN *Minimum 最小MJ Mechanical Joint 机械接头M.L Match Line 连续线MSS * Manufacturers Standardization Society of the Valve and Fittings Industry, Inc.美国阀门和管件制造商标准化协会MTO Material take-off 材料统计MW Minimum Wall 最小壁厚M.W. Mineral Wool 矿(物)棉NN * North 北NB Nominal Bore 公称孔径N.B. Non-Bonnet 无阀盖NC Normally Closed 常闭NIP Nipple 短管NO Normally Open; 常开*Number号;数量NO INS No Insulation 不隔热NOM Nominal 公称的;额定的NOZ Nozzle 管口NPS Nominal Pipe Size 公称管径NPSH Net Positive Suction Head 净正吸入压头NPT *American National Taper 美国锥管螺纹Pipe ThreadNS Nominal Size 公称直径NV Needle Valve 针形阀OOD *Outside Diameter 外径OET One end Threaded 一端带螺纹OR Outside Radius 外半径ORF Orifice 孔板ORIENT Orientation 方位OS & Y Outside Screw and Yoke 外螺纹阀杆和阀轭OSNB Outside Screw Non-Bonnet 外螺纹无阀盖PP Plug 堵头PAP Piping Arrangement Plan管道布置平面图PB Pressure Seal Bonnet 压力密封的阀盖P-B Plain End –Bevel End 平端—坡口端PC Pressure Seal Cap 压力密封的阀帽P.C.D. Pitch Circle Diameter 节圆直径PE Plain End (not beveled) 平端(无坡口)PF Platform 平台PID Piping & Instrument Diagram管道及仪表流程图PN *Nominal Pressure 公称压力PN Plant North 工厂北向POS point of Support 支承点P-P Plain End—Plain End 两端为平端PREP Preparation 加工准备PSIA *Pounds Per Square Inch Absolute 磅/ PSIG Pounds Per Square Inch Gage 磅/PT Point 点PTFE *Polytetrafluoroethylene 聚四氟乙烯PT.NO Part No. 件号PV Plug Valve 旋塞阀PVC *Poly Vinyl Chloride 聚氯乙烯QQTY *Quantity 数量RR * Radius 半径RED Reducer 异径管REF Reference 参考REINF Reinforce 加强REQD Required 需要;申请REV *Revision 修改RF Raised Face 凸面RG Ring Gasket 环形垫片R.H.THD Right Hand Thread 右螺旋RJ Ring Joint 环垫接头RO Restriction Orifice 限流孔板RPM * Revolutions Per Minute 转/分RPS * Revolutions Per Second 转/秒RS Resting Support 支承架,滑动架RTJ Ring Type Joint(见RJ)RV Relief Valve 安全泄液阀SS *South 南S Spring 弹簧(管架用)SAW (Automatic)Submerged Arc Wel**** 自动埋弧焊SB Stud Bolt 双头螺栓SB Screwed Bonnet 螺纹阀盖SC Sample Cooler 取样冷却器SCH * Schedule 管壁厚系列号SCRD Screwed 螺纹SEP Small end Plain 小端为平的SET Small end Threaded 小端带螺纹SF Semi-Finished 半光SG Sight Glass 视镜SH Surface Hard Facing 硬质密封面SK Sketch 草图SMAW Shielded Metal Arc Wel**** 有保护的金属电弧焊SMLS Seamless 无缝SN Swaged Nipple 异径短管SO Slip – On 滑套SOF Slip – On Flange 滑套法兰SPEC * Specification 规定,说明SPL Sound Pressure Lever 升压水准SQ * Square 方的,平方SR Shout Radius 短半径SRE Short Radius Elbow 短半径弯头SS *Stainless Steel 不锈钢ST Steam Trap蒸汽疏水阀STD *Standard 标准STG Small Tongue & Groove 小椎槽面STL *Steel 钢STM Steam 蒸汽STM.TR Steam Tracing 蒸汽拌热SUCT Suction 吸入口SV Safety Valve 安全泄气阀SW Socket Weld 承插焊SWG Swage 锻造,模锻SWMG Swing Type 旋启式SYM Symmetrical 对称的TT Tee 三通TE Threaded End 螺纹端TEMP *Temperature温度TG Tongue & Groove 椎槽THD *Threaded 螺纹的THK *Thickness 厚度TL Tangent Line 切线TN True North 真实北向TOC Top of Concrete 混凝土北向TOP Top of pipe 管顶TOS Top of Support 支架顶面Top Top of Steel 钢结构顶面TY P Typical 典型的UUB Union Bonnet 带活接头的阀盖UC Union Cap 带活接头的阀帽UN Union 活接头VV Valve 阀VAC Vacuum 真空VAR Variable 可变的VERT Vertical 垂直的VOL *Volume 卷,册,容量,体积WW * West 西WB Weld Branch 焊接支管WC Weld Cap 焊接管帽WD Width 宽度WE Weld End 焊接端WL Wel**** Line 焊接线WN Wel**** Neck 对焊法兰(颈部)WNF Weld Neck Flange 对焊法兰WP Working Pressure 工作压力W.P. Working Point 工作点WT Wall Thickness 壁厚Weight 重量XXH Extra Heavy 加强的,加厚的XXH Double Extra Heavy 双倍加强(厚)的XS Extra Strong 加强的XXS Double Extra Strong 双倍加强的YYP Yield Point 屈服点1.2 管件 Fitting弯头 elbow异径弯头 reducing elbow带支座弯头 base elbowk半径弯头 long radius elbow短半径弯头 short radius elbow长半径180°弯头 long radius return短半径180°弯头 short radius return带侧向口的弯头(右向或左向) side outlet elbow (right hand or left hand)双支管弯头(形) double branch elbow三通 tee异径三通 reducing tee等径三通 straight tee带侧向口的三通(右向或左向) side outlet tee (right hand or 1eft hand)异径三通(分支口为异径) reducing tee (reducing on outlet)异径三通(一个直通口为异径) reducing tee (reducing on one run)带支座三通 base tee异径三通(一个直通口及分支口为异径) reducing tee (reducing on one run and outlet)异径三通(两个直通口为异径,双头式) reducing tee (reducing on both runs, bull head)45°斜三通 45° lateral45°斜三通(支管为异径) 45° lateral (reducing on branch)45°斜三通(一个直通口为异径) 45° lateral (reducing on one run)45°斜三通(一个直通口及支管为异径) 45° lateral (reducing on one run and branch)Y型三通(俗称裤衩) true “Y”四通 cross等径四通 straight cross异径四通 reducing cross异径四通(一个分支口为异径 reducing cross (reducing on one outlet)异径四通(一个直通口及分支口为异径) reducing cross (reducing on one run and outlet)异径四通(两个分支口为异径) reducing cross (reducing on both outlet)异径四通(一个直通口及两个分支口为异径)reducing cross (reducing on one run and both outlet)异径管 reducer同心异径管 concentric reducer偏心异径管 eccentric reducer锻制异径管 reducing swage螺纹支管台 threadolet焊接支管台 weldolet承插支管台 sockolet弯头支管台 elbolet斜接支管台 latrolet镶入式支管嘴 sweepolet短管支管台 nipolet支管台,插入式支管台 boss管接头 coupling, full coupling半管接头 half coupling异径管接头 reducing coupling活接头 union内外螺纹缩接(俗称补芯) bushing管帽 cap (C)堵头 plug短节 nipple异径短节 reducing nipple; swage nipple1.3 弯管 Bend预制弯管 fabricated pipe bend跨越弯管(^ 形) cross-over bend偏置弯管(~ 形) offset bend90°弯管 quarter bend环形弯管 cirele bend单侧偏置90°弯管(? 形) single offset quarter bend S形弯管“S” bend单侧偏置U形膨胀弯管(| ?形) single offset “U”bendU形弯管“U” bend双偏置U膨胀弯管 double offset expansion “U”bend斜接弯管 mitre bend三节斜接弯管 3-piece mitre bend折皱弯管 corrugated bend圆度 roundness1.4 法兰 Flange (FLG)整体管法兰 integral pipe flange钢管法兰 steel pipe flange螺纹法兰 threaded flange滑套法兰(包括平焊法兰) slip-on flange (SO);slip-on welding flange承插焊法兰 socket welding flange松套法兰 lap joint flange (LJF)对焊法兰 welding neck flange (WNF)法兰盖 blind flange, blind孔板法兰 orifice flange异径法兰 reducing flange盘座式法兰 pad type flange松套带颈法兰 loose hubbed flange焊接板式法兰 welding plate flange对焊环 welding neck collar (与stub end相似)平焊环 welding-on collar突缘短节 stub end, lap翻边端 lapped pipe end松套板式法兰 loose plate flange压力级 pressure rating, pressure rating class 压力—温度等级 pressure-temperature rating法兰密封面,法兰面 flange facing突面 raised face (RF)凸面 male face (MF)凹面 female face (FMF)榫面 tongue face槽面 groove face环连接面 ring joint face全平面;满平面 flat face; full face (FF)光滑突面 smooth raised face (SRF)法兰面加工 facing finish粗糙度 roughness光滑的 smooth齿形 serrated均方根 root mean square (RMS)算术平均粗糙高度 arithmetical average roughness height (AARH)配对法兰 panion-flange螺栓圆 bolt circle (B.C.)1.5 垫片 Gasket (GSKT)垫片的型式 type of gasket平垫片 flat gasket环形平垫片 flat ring gasket平金属垫片 flat metal gasket夹棉织物的橡胶 elastomer with cotton fabric insertion夹石棉织物的橡胶 elastomer with asbestos fabric insertion夹石棉织物及金属丝加强的橡胶 elastomer with asbestos fabric insertion and with wire reinforcement无石墨压缩白石棉垫片 non graphited pressed white asbestos gasket天然白橡胶垫片 natural white rubber gasket压缩石棉垫片 pressed asbestos class gasket浸聚四氟乙烯的石棉垫片 PTFE impregnated asbestos gasket夹石棉的缠绕金属垫片 spiral-wound metal gasket with asbestos filler内环 inner ring外环,外定位环 outer ring波纹金属垫片 corrugated metal gasket波纹金属包嵌石棉垫片 corrugated metal gasket with asbestos inserted双夹套波纹金属包石棉垫片 corrugated metal double jacketed asbestos filled gasket双夹套垫片 double jacketed gasket金属包石棉平垫片 flat metal jacketed asbestos filled gasket整体金属齿形垫片 solid metal serrated gasket槽形金属垫片 grooved metal gasket环形连接金属垫片 ring joint metal gasket八角环形垫片 octagonal ring gasket椭圆环形垫片 oval ring gasket透镜式垫片 lens gasket非金属垫片 non-metallic gasketTOE是Threaded One End的缩写,意思是一端螺纹POE是Plain One End的缩写,意思是一端平口TBE是Threaded Both End的缩写,意思是两端螺纹PBE是Plain Both End的缩写,意思是两端平口TOE&POE就是一端平口,另一端螺纹连接TBE是两头都是螺纹连接PBE是两头都是平口(焊接)BBE 两端都是坡口- . - -.可修编-。
强制性产品HS对照表
41
MIG/MAG弧焊机
8515319900
其他电弧(包括等离子弧)焊接机及装置(全自动或半自动的)
8515390000
其他电弧(等离子弧)焊接机器及装置(非全自动或半自动)
8515319100
螺旋焊管机[电弧(包括等离子弧)焊接式,全自动或半自动的]
8515809090
熔断器(电压不超过1000伏)
11
漏电保护器
8536300000
电压≤1000伏其他电路保护装置
8536419000
36伏<电压≤60伏的继电器
8536490000
电压大于60伏的继电器(用于电压不超过1000伏的线路)
12
断路器
8535210000
电压<72.5千伏自动断路器(用于电压超过1000伏的线路)
20
小功率电动机
8501520000
>750W ≤75KW多相交流电动机(输出功率不超过750瓦,但不超过75千瓦)
8501320000
>750W≤75KW直流电动机、发电机(输出功率超过750瓦,但不超过75千瓦)
8501510090
其他不超过750W多相交流电动机(输出功率不超过750瓦)
8501200000
15
其他电路保护装置
(低压电器)
8536300000
电压≤1000伏其他电路保护装置
8535900090
其他>1000伏电路开关等电气装置
8536419000
36伏<电压≤60伏的继电器
8536490000
电压大于60伏的继电器(用于电压不超过1000伏的线路)
16
继电器
8536419000
液压常用单位换算大全
液压常用单位换算溫度=9/5 +32压力常用化工品英文缩写与中文名对照表A英文缩写全称A/MMA 丙烯腈/甲基丙烯酸甲酯共聚物AA丙烯酸AAS丙烯酸酯-丙烯酸酯-苯乙烯共聚物ABFN偶氮(二)甲酰胺ABN偶氮(二)异丁腈ABPS壬基苯氧基丙烷磺酸钠B英文缩写全称BAA正丁醛苯胺缩合物BAC碱式氯化铝BACN新型阻燃剂BAD双水杨酸双酚A酯BAL 2,3-巯(基)丙醇BBP邻苯二甲酸丁苄酯BBS N-叔丁基-乙-苯并噻唑次磺酰胺BC叶酸BCD 环糊精BCG苯顺二醇BCNU氯化亚硝脲BD 丁二烯BE丙烯酸乳胶外墙涂料BEE苯偶姻乙醚BFRM硼纤维增强塑料BG 丁二醇BGE 反应性稀释剂BHA 特丁基-4 羟基茴香醚BHT 二丁基羟基甲苯BL 丁内酯BLE 丙酮-二苯胺高温缩合物BLP 粉末涂料流平剂BMA 甲基丙烯酸丁酯BMC 团状模塑料BMU 氨基树脂皮革鞣剂BN 氮化硼BNE 新型环氧树脂BNS B-萘磺酸甲醛低缩合物BOA 己二酸辛苄酯BOP 邻苯二甲酰丁辛酯BOPP 双轴向聚丙烯BP 苯甲醇BPA 双酚ABPBG 邻苯二甲酸丁(乙醇酸乙酯)酯BPF 双酚FBPMC 2- 仲丁基苯基-N- 甲基氨基酸酯BPO 过氧化苯甲酰BPP 过氧化特戊酸特丁酯BPPD 过氧化二碳酸二苯氧化酯BPS 4 ,4'-硫代双(6- 特丁基-3- 甲基苯酚)BPTP 聚对苯二甲酸丁二醇酯BR 丁二烯橡胶BRN 青红光硫化黑BROC 二溴(代)甲酚环氧丙基醚BS 丁二烯- 苯乙烯共聚物BS-1S 新型密封胶BSH 苯磺酰肼BSU N , N'-双(三甲基硅烷)脲BT 聚丁烯-1 热塑性塑料BTA 苯并三唑BTX 苯-甲苯-二甲苯混合物BX 渗透剂BXA 己二酸二丁基二甘酯BZ 二正丁基二硫代氨基甲酸锌C英文缩写全称CA 醋酸纤维素CAB 醋酸-丁酸纤维素CAN 醋酸-硝酸纤维素CAP 醋酸-丙酸纤维素CBA 化学发泡剂CDP 磷酸甲酚二苯酯CF 甲醛-甲酚树脂,碳纤维CFE 氯氟乙烯CFM 碳纤维密封填料CFRP 碳纤维增强塑料CLF 含氯纤维CMC 羧甲基纤维素CMCNa 羧甲基纤维素钠CMD 代尼尔纤维CMS 羧甲基淀粉D英文缩写全称DAF 富马酸二烯丙酯DAIP 间苯二甲酸二烯丙酯DAM马来酸二烯丙酯DAP间苯二甲酸二烯丙酯DATBP四溴邻苯二甲酸二烯丙酯DBA己二酸二丁酯DBEP邻苯二甲酸二丁氧乙酯DBP邻苯二甲酸二丁酯DBR二苯甲酰间苯二酚DBS癸二酸二癸酯DCCA二氯异氰脲酸DCCK二氯异氰脲酸钾DCCNa二氯异氰脲酸钠DCHP邻苯二甲酸二环乙酯DCPD过氧化二碳酸二环乙酯DDA己二酸二癸酯DDP邻苯二甲酸二癸酯DEAE二乙胺基乙基纤维素DEP邻苯二甲酸二乙酯DETA二乙撑三胺DFA薄膜胶粘剂DHA己二酸二己酯DHP邻苯二甲酸二己酯DHS癸二酸二己酯DIBA己二酸二异丁酯DIDA己二酸二异癸酯DIDG戊二酸二异癸酯DIDP邻苯二甲酸二异癸酯DINA己二酸二异壬酯DINP邻苯二甲酸二异壬酯DINZ壬二酸二异壬酯DIOA己酸二异辛酯< laE英文缩写全称E/EA乙烯/ 丙烯酸乙酯共聚物E/P乙烯/ 丙烯共聚物E/P/D乙烯/ 丙烯/ 二烯三元共聚物E/TEE乙烯/ 四氟乙烯共聚物E/VAC乙烯/ 醋酸乙烯酯共聚物E/VAL乙烯/ 乙烯醇共聚物EAA乙烯- 丙烯酸共聚物EAK乙基戊丙酮EBM挤出吹塑模塑EC乙基纤维素ECB乙烯共聚物和沥青的共混物ECD环氧氯丙烷橡胶ECTEE聚(乙烯- 三氟氯乙烯)ED-3环氧酯EDC二氯乙烷EDTA乙二胺四醋酸EEA乙烯- 醋酸丙烯共聚物EG乙二醇2-EH :异辛醇EO环氧乙烷EOT聚乙烯硫醚EP环氧树脂EPI环氧氯丙烷EPM乙烯- 丙烯共聚物EPOR三元乙丙橡胶EPR乙丙橡胶EPS可发性聚苯乙烯EPSAN乙烯- 丙烯- 苯乙烯- 丙烯腈共聚物EPT乙烯丙烯三元共聚物EPVC乳液法聚氯乙烯EU聚醚型聚氨酯EVA乙烯- 醋酸乙烯共聚物EVE乙烯基乙基醚EXP醋酸乙烯-乙烯- 丙烯酸酯三元共聚乳液r~F 英文缩写全称F/VAL乙烯/ 乙烯醇共聚物F-23四氟乙烯- 偏氯乙烯共聚物F-30三氟氯乙烯- 乙烯共聚物F-40四氟氯乙烯- 乙烯共聚物FDY丙纶全牵伸丝FEP全氟(乙烯- 丙烯)共聚物FNG耐水硅胶FPM FRA FRC FRP FRPA-101 FRPA-610 FWA G 英文缩写GF GFRP GFRTP GOF GPS GR-1 GR-N GR-S GRTP GUV GX GY H 英文缩写H HDI HDPE HEDP HFP HIPS HLA HLD HM HMC HMF HOPP HPC HPMC HPMCP HPT HS HTPS1氟橡胶纤维增强丙烯酸酯阻燃粘胶纤维纤维增强塑料玻璃纤维增强聚癸二酸癸胺(玻璃纤维增强尼龙1010 树脂)玻璃纤维增强聚癸二酰乙二胺(玻璃纤维增强尼龙610 树脂)荧光增白剂全称玻璃纤维玻璃纤维增强塑料玻璃纤维增强热塑性塑料促进剂石英光纤通用聚苯乙烯异丁橡胶丁腈橡胶丁苯橡胶玻璃纤维增强热塑性塑料紫外光固化硅橡胶涂料邻二甲苯厌氧胶全称乌洛托品六甲撑二异氰酸酯低压聚乙烯(高密度)1- 羟基乙叉-1 ,1- 二膦酸六氟丙烯高抗冲聚苯乙烯天然聚合物透明质胶树脂性氯丁胶高甲氧基果胶高强度模塑料非干性密封胶均聚聚丙烯羟丙基纤维素羟丙基甲基纤维素羟丙基甲基纤维素邻苯二甲酸酯六甲基磷酸三酰胺六苯乙烯高冲击聚苯乙烯I 英文缩写IEN IHPN全称互贯网络弹性体互贯网络均聚物异丁烯-异戊二烯橡胶 离子聚合物 异丙醇互贯网络聚合物 异戊二烯橡胶 异丁基乙烯基醚全称 聚乙烯醇缩醛胶 塑胶粘合剂全称 空分硅胶 全称十二烷基苯磺酸钠 液态固化剂 低毒胶粘剂 氯丁胶粘剂高压聚乙烯(低密度) 氯丁橡胶 脲液化石油气低替代度羟丙基纤维素 液体侵渍模塑 乳胶互贯网络聚合物 接体型氯丁橡胶 线性低密度聚乙烯 低甲氧基果胶 液态甲烷气 低分子量聚乙稀 液态氮液态反应模塑 增强液体反应模塑 羧基氯丁乳胶M英文缩写 全称MA 丙烯酸甲酯 MAA 甲基丙烯酸MABS 甲基内烯酸甲酯-内烯腈-丁二烯-苯乙烯共聚物 MAL甲基丙烯醛IIR IO IPA IPN IR IVE J 英文缩写 JSF JZ K 英文缩写 KSG L 英文缩写 LAS LCM LDJ LDN LDPE LDR LF LGP LHPC LIM LIPN LJ LLDPE LM LMG LMWPE LN LRM LRMR LSR甲基丙烯酸甲酯-丁二烯-苯乙烯共聚物 甲基叔丁基醚甲基纤维素三聚氰胺氰脲酸盐改性聚己内酰胺(铸型尼龙6) 改性氯丁冷粘鞋用胶3 ,3 '二甲基-4,4 '二氨基二苯甲烷二苯甲烷二异氰酸酯(甲撑二苯基二异氰酸酯) 中压聚乙烯(高密度) 丁酮(甲乙酮) 过氧化甲乙酮 脂肪酸甲酯磺酸盐三聚氰胺-甲醛树脂 改性高冲聚苯乙烯 甲基异丁基酮 甲基丙烯酸甲酯 甲基甲酰胺甲基丙烯腈乙醇酸乙酯三聚氨胺-酚醛树脂甲基丙基甲酮 改性聚丙烯 改性聚苯醚 改性聚苯乙烯苯乙烯-甲基丙烯酸甲酯树脂 石油醚 甲基叔丁基醚 氯丁胶新型交联剂MBS MBTE MC MCA MCPA-6 MCR MDIMDI MDPE MEK MEKP MES MF M-HIPS MIBK MMA MMF MNA MPEGMPFMPKM-PP MPPO MPS MS MSO MTBE MTT MWR MXD-10/6旋转模塑醇溶三元共聚尼龙MXDP 间苯二甲基二胺N英文缩写全称NBR丁腈橡胶NDI二异氰酸萘酯NDOP邻苯二甲酸正癸辛酯NHDP邻苯二甲酸己正癸酯NHTM偏苯二酸正己酯NINS癸二酸二异辛酯NLS正硬脂酸铅NMP N- 甲基吡咯烷酮NODA己二酸正辛正癸酯NODP邻苯二甲酸正辛正癸酯NPE壬基酚聚氧乙烯醚NR天然橡胶O英文缩写全称OBP邻苯二甲酸辛苄酯ODA己二酸异辛癸酯ODPP磷酸辛二苯酯OIDD邻苯二甲酸正辛异癸酯OPP定向聚丙烯(薄膜)OPS定向聚苯乙烯(薄膜)OPVC正向聚氯乙烯OT气熔胶P英文缩写全称PA聚酰胺(尼龙)PA-1010聚癸二酸癸二胺(尼龙1010)PA-11聚十一酰胺(尼龙11)PA-12聚十二酰胺(尼龙12)PA-6聚己内酰胺(尼龙6)PA-610聚癸二酰乙二胺(尼龙610)PA-612聚十二烷二酰乙二胺(尼龙612)PA-66聚己二酸己二胺(尼龙66)PA-8聚辛酰胺(尼龙8)PA-9聚9-氨基壬酸(尼龙9)PAA聚丙烯酸PAAS水质稳定剂PABM聚氨基双马来酰亚胺PAC聚氯化铝PAEK聚芳基醚酮PAI聚酰胺-酰亚胺PAM聚丙烯酰胺PAMBA抗血纤溶芳酸PAMS聚a—甲基本乙烯PAN聚丙烯腈PAP对氨基苯酚PAPA聚壬二酐PAPI多亚甲基多苯基异氰酸酯PAR聚芳酰胺PAR聚芳酯(双酚A型)PAS聚芳砜(聚芳基硫醚)PB聚丁二烯-[1 , 3:PBAN聚(丁二烯-丙烯腈)PBI聚苯并咪唑PBMA聚甲基丙烯酸正丁酯PBN聚萘二酸丁醇酯PBR丙烯-丁二烯橡胶PBS聚(丁二烯-苯乙烯)PBS聚(丁一烯-苯乙烯)PBT聚对苯一甲酸丁一酯PC聚碳酸酯PC/ABS聚碳酸酯/ABS树脂共混合金PC/PBT聚碳酸酯/聚对苯二甲酸丁二醇酯弹性体共混合金PCD聚羰二酰亚胺PCDT聚(1 ,4-环己烯二亚甲基对苯二甲酸酯)PCE四氯乙烯PCMX对氯间二甲酚PCT聚对苯二甲酸环己烷对二甲醇酯PCT聚己内酰胺PCTEE聚三氟氯乙烯PD二羟基聚醚PDAIP聚间苯二甲酸二烯丙酯PDAP聚对苯二甲酸二烯丙酯PDMS聚二甲基硅氧烷R英文缩写全称RE橡胶粘合剂RF间苯二酚-甲醛树脂RFL间苯二酚-甲醛乳胶RP增强塑料RP/C增强复合材料RX橡胶软化剂S英文缩写全称S/MS苯乙烯-a-甲基苯乙烯共聚物SAN苯乙烯-丙烯腈共聚物SAS仲烷基磺酸钠SB苯乙烯-丁二烯共聚物SBR丁苯橡胶SBS本乙烯-丁一烯-苯乙烯嵌段共聚物SC硅橡胶气调织物膜SDDC N , N-二甲基硫代氨基甲酸钠SE磺乙基纤维素SGA丙烯酸酯胶SI聚硅氧烷SIS苯乙烯-异戊二烯-苯乙烯嵌段共聚物SIS/SEBS苯乙烯-乙烯-丁二烯-苯乙烯共聚物SM苯乙烯SMA苯乙烯-顺丁烯二酸酐共聚物SPP : 间规聚苯乙烯SPVC悬浮法聚氯乙烯SR合成橡胶ST矿物纤维T英文缩写全称TAC三聚氰酸三烯丙酯TAME甲基叔戊基醚TAP磷酸三烯内酯TBE四溴乙烷TBP磷酸三丁酯TCA三醋酸纤维素TCCA三氯异氰脲酸TCEF磷酸三氯乙酯TCF磷酸三甲酚酯TCPP磷酸三氯丙酯TDI甲苯二异氰酸酯TEA三乙胺TEAE三乙氨基乙基纤维素TEDA三乙二胺TEFC三氟氯乙烯TEP磷酸三乙酯TFE四氟乙烯THF四氢呋喃TLCP热散液晶聚酯TMP三羟甲基丙烷TMPD三甲基戊二醇TMTD二硫化四甲基秋兰姆(硫化促进剂TT)TNP三壬基苯基亚磷酸酯TPA对苯二甲酸TPE磷酸三苯酯TPS韧性聚苯乙烯TPU热塑性聚氨酯树脂TR聚硫橡胶TRPP纤维增强聚丙烯TR-RFT纤维增强聚对苯二甲酸丁二醇酯TRTP纤维增强热塑性塑料IIP磷酸二甲苯酯U英文缩写全称U脲UF脲甲醛树脂UHMWPE超高分子量聚乙烯UP不饱和聚酯V英文缩写全称VAC醋酸乙烯酯VAE乙烯-醋酸乙烯共聚物VAM醋酸乙烯VAMA醋酸乙烯-顺丁烯二酐共聚物VC氯乙烯VC/CDC氯乙烯/偏二氯乙烯共聚物VC/E氯乙烯/乙烯共聚物VC/E/MA氯乙烯/乙烯/丙烯酸甲酯共聚物VC/E/VAC氯乙烯/乙烯/醋酸乙烯酯共聚物VC/MA氯乙烯/丙烯酸甲酯共聚物VC/MMA氯乙烯/甲基丙烯酸甲酯共聚物VC/OA氯乙烯/丙烯酸辛酯共聚物VC/VAC氯乙烯/醋酸乙烯酯共聚物VCM氯乙烯(单体)VCP氯乙烯-丙烯共聚物VCS丙烯腈-氯化聚乙烯-本乙烯共聚物VDC偏二氯乙烯VPC硫化聚乙烯VTPS特种橡胶偶联剂W英文缩写全称WF新型橡塑填料WP织物涂层胶WRS聚苯乙烯球形细粒X英文缩写全称XF二甲苯-甲醛树脂XMC复合材料Y英文缩写全称YH改性氯丁胶YM聚丙烯酸酯压敏胶乳YWG液相色谱无定型微粒硅胶Z英文缩写全称ZE玉米纤维ZH溶剂型氯化天然橡胶胶粘剂ZN粉状脲醛树脂胶。
BL-S400E-11SG-0中文资料
BL-S400X-11XX■ Features:Ø 101.60mm (4.0”) Single digit numeric display series, BI-COLOR TYPE Ø Low current operation.Ø Excellent character appearance.Ø Easy mounting on P.C. Boards or sockets. Ø I.C. Compatible. Ø ROHS Compliance.Electrical-optical characteristics: (Ta=25℃) (Test Condition: IF=20mA)Part NoChipVF Unit:VCommon CathodeCommon AnodeEmitted ColorMaterialλP (nm)TypMaxIvTYP.(mcd)Super RedAlGaInP 660 2.10 2.50 75 BL-S400E-11SG-XXBL-S400F-11SG-XXGreenGaP/GaP 570 2.20 2.50 80 Orange GaAsP/GaP 635 2.10 2.50 75 BL-S400E-11EG-XX BL-S400F-11EG-XXGreenGaP/GaP 570 2.20 2.50 80 Ultra Red AlGaInP 660 2.10 2.50 132 BL-S400E-11DUG-X XBL-S400F-11DUG-X XUltra Green AlGaInP 574 2.20 2.50 132 Ultra Orange AlGaInP 630 2.10 2.50 80 BL-S400E-11UEUG-XXBL-S400F-11UEUG-XXUltra GreenAlGaInP5742.202.50132n-XX: Surface / Lens color :Number1 2 3 4 5 Ref Surface Color White Black Gray Red GreenEpoxy ColorWaterclearWhite diffusedRed DiffusedGreen DiffusedYellow DiffusednAbsolute maximum ratings (Ta=25°C)ParameterSGEDUGUEU nitForward Current I F 3030 30 30 30 30 mA Power Dissipation P d 75 80 80 75 75 65 mW Reverse Voltage V R5 5 5 5 5 5 V Peak Forward Current I PF (Duty 1/10 @1KHZ)150150150150150150mA Operation Temperature T OPR -40 to +80 ℃ Storage Temperature T STG -40 to +85℃Lead Soldering TemperatureT SOLMax.260±5℃ for 3 sec Max. (1.6mm from the base of the epoxy bulb)℃BL-S400X-11XX■ Package configuration & Internal circuit diagramNotes:1. All dimensions are in millimeters (inches)2. Tolerance is ±0.25(0.01")unless otherwise noted.3. Specifications are subject to change without notice.BL-S400X-11XX■ Typical electrical-optical characteristics curves:1.00.503504004505005506006507007508008509009501000(A)(B)(C)(D)(2)(3)(8)(4)(1)(6)(5)(9)(10)Wavelength(nm)RELATIVE INTENSITY Vs WAVELENGTH()λp (1) - GaAsP/GaAs 655nm/Red (2) - GaP 570nm/Yellow Green (3) - GaAsP/GaP 585nm/Yellow(4) - GaAsp/GaP 635nm/Orange & Hi-Eff Red (5) - GaP 700nm/Bright Red(6) - GaAlAs/GaAs 660nm/Super Red (8) - GaAsP/GaP 610nm/Super Red(9) - GaAlAs 880nm(10) - GaAs/GaAs & GaAlAs/GaAs 940nm (A) - GaN/SiC 430nm/Blue (B) - InGaN/SiC 470nm/Blue(C) - (D) -InGaN/SiC 505nm/Ultra Green InGaAl/SiC 525nm/Ultra Green504030201001.21.62.0 2.4 2.63.016345285040302010020406080100162,4,8,A 353210.50.20.1-30-20-1010203040506070154231098765432110KHz 3KHz 1KHz 300KHz 100KHz F-REFRESH RATE 100KHz 30KHz 10KHz 3KHz 1KHz 300Hz 100Hz 10987654321110100100010,000FORWARD VOLTAGE (Vf)FORWARD CURRENT VS.FORWARD VOLTAGERELATIVE LUMINOUSINTENSITY VS. FORWARD CURRENTAMBIENT TEMPERATURE Ta()℃FORWARD CURRENT VS. AMBIENT TEMPERATUREtp-PULSE DURATION uS (1,2,3,4,6,8,B.D.J.K)NOTE:25free air temperature unless otherwise specified℃tp-PULSE DURATION uSFORWARD CURRENT(mA)FORWARD CURRENT (mA)RELATIVE LUMINOUS INTENSITYFORWARD CURRENT(mA)REL ATIVE LUMINOUS INTENSITYAMBIENT TEMPERATURE Ta()℃(5)Ipeak MAX.IDC MAX.Ipeak M AX.IDC MAX.。
PHILIPS BT134 series E 数据手册
Philips SemiconductorsProduct specificationTriacsBT134W series Esensitive gateGENERAL DESCRIPTIONQUICK REFERENCE DATAGlass passivated,sensitive gate triacs SYMBOL PARAMETERMAX.MAX.UNIT in a plastic envelope suitable for surface mounting,intended for use in BT134W-500E 600E general purpose bidirectional V DRM Repetitive peak off-state voltages 500600V switching and phase control I T(RMS)RMS on-state current11A applications,where high sensitivity is I TSMNon-repetitive peak on-state current1010Arequired in all four quadrants.PINNING - SOT223PIN CONFIGURATIONSYMBOLLIMITING VALUESLimiting values in accordance with the Absolute Maximum System (IEC 134).SYMBOL PARAMETERCONDITIONSMIN.MAX.UNIT -500-600V DRM Repetitive peak off-state -50016001V voltagesI T(RMS)RMS on-state current full sine wave; T sp ≤ 108 ˚C-1A I TSMNon-repetitive peak full sine wave; T j = 25 ˚C prior to on-state current surge t = 20 ms -10A t = 16.7 ms -11A I 2t I 2t for fusingt = 10 ms-0.5A 2s dI T /dtRepetitive rate of rise of I TM = 1.5 A; I G = 0.2 A;on-state current after dI G /dt = 0.2 A/µstriggeringT2+ G+-50A/µs T2+ G--50A/µs T2- G--50A/µs T2- G+-10A/µs I GM Peak gate current -2A V GM Peak gate voltage -5V P GM Peak gate power -5W P G(AV)Average gate power over any 20 ms period-0.5W T stg Storage temperature -40150˚C T jOperating junction -125˚Ctemperature1 Although not recommended, off-state voltages up to 800V may be applied without damage, but the triac may switch to the on-state. The rate of rise of current should not exceed 3 A/µs.查询BT134W供应商THERMAL RESISTANCESSYMBOL PARAMETER CONDITIONS MIN.TYP.MAX.UNITRth j-sp Thermal resistance full or half cycle--15K/W junction to solder pointRth j-a Thermal resistance pcb mounted; minimum footprint-156-K/W junction to ambient pcb mounted; pad area as in fig:14-70-K/WSTATIC CHARACTERISTICSTj= 25 ˚C unless otherwise statedSYMBOL PARAMETER CONDITIONS MIN.TYP.MAX.UNITI GT Gate trigger current VD= 12 V; IT= 0.1 AT2+ G+- 2.510mAT2+ G-- 4.010mAT2- G-- 5.010mAT2- G+-1125mAI L Latching current VD= 12 V; IGT= 0.1 AT2+ G+- 3.015mAT2+ G--1020mAT2- G-- 2.515mAT2- G+- 4.020mAI H Holding current VD= 12 V; IGT= 0.1 A- 2.215mAVT On-state voltage IT= 2 A- 1.2 1.5VVGT Gate trigger voltage VD= 12 V; IT= 0.1 A-0.7 1.5VVD= 400 V; IT= 0.1 A; Tj= 125 ˚C0.250.4-VI D Off-state leakage current VD= VDRM(max); Tj= 125 ˚C-0.10.5mADYNAMIC CHARACTERISTICSTj= 25 ˚C unless otherwise statedSYMBOL PARAMETER CONDITIONS MIN.TYP.MAX.UNITdVD /dt Critical rate of rise of VDM= 67% VDRM(max); Tj= 125 ˚C;-30-V/µs off-state voltage exponential waveform; gate open circuitt gt Gate controlled turn-on ITM= 1.5 A; VD= VDRM(max); IG= 0.1 A;-2-µs time dIG/dt = 5 A/µsMOUNTING INSTRUCTIONSPRINTED CIRCUIT BOARDMECHANICAL DATANotes1. For further information, refer to Philips publication SC18 " SMD Footprint Design and Soldering Guidelines".Order code: 9397 750 00505.2. Epoxy meets UL94 V0 at 1/8".DEFINITIONSData sheet statusObjective specification This data sheet contains target or goal specifications for product development. Preliminary specification This data sheet contains preliminary data; supplementary data may be published later. Product specification This data sheet contains final product specifications.Limiting valuesLimiting values are given in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of this specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application informationWhere application information is given, it is advisory and does not form part of the specification.© Philips Electronics N.V. 1997All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner.The information presented in this document does not form part of any quotation or contract, it is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent or other industrial or intellectual property rights.LIFE SUPPORT APPLICATIONSThese products are not designed for use in life support appliances, devices or systems where malfunction of these products can be reasonably expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale.。
E134资料
Key Features" Ultra-Miniature SIP Package" 1,00 VDC Isolation" 1W Output Power " 5, 12, 24 & 48 VDC Inputs " -401C to +851C Operation " Low CostElectrical Speci fi cationsSpeci fi cations typical @ +251C with nominal input voltage & rated output current, unless otherwise noted. Speci fications subject to change without notice.InputParameterConditionsMin.Typ.Max.UnitsInput Voltage Range 5 VDC Input4.55.0 5.5VDC12 VDC Input 10.812.013.224 VDC Input 21.624.026.448 VDC Input44.048.052.0Reverse Polarity Input Current 0.3AInput FilterInternal CapacitorOutputParameterConditionsMin.Typ.Max.Units Output Voltage Accuracy !1.0!3.0%Line Regulation For Vin Change of 1%!1.2!1.5%Load RegulationSee Model Selection GuideRipple & Noise (20 MHz)100mV P - POutput Power Protection 120%Temperature Coef fi cient !0.01!0.02%/1COutput Short CircuitMomentary (0.5 Sec.)GeneralParameterConditionsMin.Typ.Max.Units Isolation Voltage 60 Seconds 1,000VDC Isolation Resistance 1,000 VDC 1,000M ΩIsolation Capacitance 100 kHz, 1V60pF Switching Frequency5090110kHz EnvironmentalParameterConditionsMin.Typ.Max.Units Operating Temperature Range -40+25+851C Storage Temperature Range -55+1251C Cooling Free Air ConvectionHumidityRH, Non-condensing95%PhysicalCase Size (5V & 12V Input Models)0.46 x 0.24 x 0.40 Inches (11.7 x 6.1 x 10.2 mm)Case Size (24V & 48V Input Models)0.46 x 0.29 x 0.40 Inches (11.7 x 7.5 x 10.2 mm)Case MaterialNon-Conductive Black PlasticWeight (5V & 12V Input Models)0.05 Oz (1.3g)Weight (24V & 48V Input Models)0.06 Oz (1.8g)Reliability Speci fi cationsParameter ConditionsMin.Typ.Max.Units MTBFMIL HDBK 217F, 251C, Gnd Benign4.4MHours Absolute Maximum RatingsParameterConditionsMin.Typ.Max.UnitsInput Voltage Surge (1 Sec) 5 VDC Input -0.79.0VDC12 VDC Input -0.718.024 VDC Input -0.730.048 VDC Input -0.755.0Internal Power Dissipation All Models650mWCaution: Exceeding Absolute Maximum Ratings may damage the module. These are not continuous operating ratings.MicroPowerDirectUltra-Miniature, 1W 5, 12, 24 & 48V Input SIP DC/DC ConvertersE100 SeriesMicroPower Direct " TEL: (781) 344-8226 " FAX: (781) 344-8481 " E-Mail: sales@ " WEB: www/Notes:All dimensions are typical in inches (mm)Tolerance x.xx = !0.01 (!0.25)Pin 1 is marked by a “dot” or indentation on the side of the unitT = 0.24 (6.1) for 5V and 12V input models T = 0.29 (7.5) for 24V and 48V input models232 Tosca Drive, Stoughton, MA 02072 sales@phone: (781) 344 - 8226 * fax: (781) 344 - 8481MicroPowerDirectCapacitive LoadNote:1. Load regulation is speci fi ed for a step load change of 20% to 100%.2. For applications requiring lower output ripple levels, the addition of a simple LC fi lter externally will provide good results. For example, using component values of 4.7 µH and 4.7 µF will lower output ripple to about 35 mV pk-pk.5V Output OnlyAll Other OutputsAmbient Temperature 1CO u t p u t P o w e r %Derating Curve。