QM100HY-2中文资料
测井代码2
测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formation resistivity 冲洗带地层电阻率Ild deep investigate induction log 深探测感应测井Ilm medium investigate induction log 中探测感应测井Ils shallow investigate induction log 浅探测感应测井Rd deep investigate double lateral resistivity log 深双侧向电阻率测井Rs shallow investigate double lateral resistivity log 浅双侧向电阻率测井RMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马--------------------------------------------------- GRSL—能谱自然伽马POR 孔隙度 NEWSANDPORW 含水孔隙度 NEWSANDPORF 冲洗带含水孔隙度 NEWSANDPORT 总孔隙度 NEWSANDPORX 流体孔隙度 NEWSANDPORH 油气重量 NEWSANDBULK 出砂指数 NEWSANDPERM 渗透率 NEWSANDSW 含水饱和度 NEWSANDSH 泥质含量 NEWSANDCALO 井径差值 NEWSANDCL 粘土含量 NEWSANDDHY 残余烃密度 NEWSANDSXO 冲洗带含水饱和度 NEWSANDDA 第一判别向量的判别函数 NEWSANDDB 第二判别向量的判别函数 NEWSANDDAB 综合判别函数 NEWSANDCI 煤层标志 NEWSANDCARB 煤的含量 NEWSANDTEMP 地层温度 NEWSANDQ 评价泥质砂岩油气层产能的参数 NEWSAND PI 评价泥质砂岩油气层产能的参数 NEWSAND SH 泥质体积 CLASSSW 总含水饱和度 CLASSPOR 有效孔隙度 CLASSPORG 气指数 CLASSCHR 阳离子交换能力与含氢量的比值 CLASS CL 粘土体积 CLASSPORW 含水孔隙度 CLASSPORF 冲洗带饱含泥浆孔隙度 CLASSCALC 井径差值 CLASSDHYC 烃密度 CLASSPERM 绝对渗透率 CLASSPIH 油气有效渗透率 CLASSPIW 水的有效渗透率 CLASSCLD 分散粘土体积 CLASSCLL 层状粘土体积 CLASSCLS 结构粘土体积 CLASSEPOR 有效孔隙度 CLASSESW 有效含水饱和度 CLASSTPI 钍钾乘积指数 CLASSPOTV 100%粘土中钾的体积 CLASSCEC 阳离子交换能力 CLASSQV 阳离子交换容量 CLASSBW 粘土中的束缚水含量 CLASSEPRW 含水有效孔隙度 CLASSUPOR 总孔隙度,UPOR=EPOR+BW CLASSHI 干粘土骨架的含氢指数 CLASSBWCL 粘土束缚水含量 CLASSTMON 蒙脱石含量 CLASSTILL 伊利石含量 CLASSTCHK 绿泥石和高岭石含量 CLASSVSH 泥质体积 CLASSVSW 总含水饱和度 CLASSVPOR 有效孔隙度 CLASSVPOG 气指数 CLASSVCHR 阳离子交换能力与含氢量的比值 CLASS VCL 粘土体积 CLASSVPOW 含水孔隙度 CLASSVPOF 冲洗带饱含泥浆孔隙度 CLASSVCAC 井径差值 CLASSVDHY 烃密度 CLASSVPEM 绝对渗透率 CLASSVPIH 油气有效渗透率 CLASS VPIW 水的有效渗透率 CLASS VCLD 分散粘土体积 CLASSVCLL 层状粘土体积 CLASSVCLS 结构粘土体积 CLASSVEPO 有效孔隙度 CLASSVESW 有效含水饱和度 CLASS VTPI 钍钾乘积指数 CLASSVPOV 100%粘土中钾的体积 CLASS VCEC 阳离子交换能力 CLASSVQV 阳离子交换容量 CLASSVBW 粘土中的束缚水含量 CLASS VEPR 含水有效孔隙度 CLASS VUPO 总孔隙度 CLASSVHI 干粘土骨架的含氢指数 CLASS VBWC 粘土束缚水含量 CLASS VTMO 蒙脱石含量 CLASSVTIL 伊利石含量 CLASSVTCH 绿泥石和高岭石含量 CLASS QW 井筒水流量 PLIQT 井筒总流量 PLISK 射孔井段 PLIPQW 单层产水量 PLIPQT 单层产液量 PLIWEQ 相对吸水量 ZRPMPEQ 相对吸水强度 ZRPM POR 孔隙度 PRCOPORW 含水孔隙度 PRCO PORF 冲洗带含水孔隙度 PRCO PORT 总孔隙度 PRCOPORX 流体孔隙度 PRCO PORH 油气重量 PRCOBULK 出砂指数 PRCOHF 累计烃米数 PRCOPF 累计孔隙米数 PRCO PERM 渗透率 PRCOSW 含水饱和度 PRCOSH 泥质含量 PRCOCALO 井径差值 PRCOCL 粘土含量 PRCODHY 残余烃密度 PRCOSXO 冲洗带含水饱和度 PRCO SWIR 束缚水饱和度 PRCO PERW 水的有效渗透率 PRCOPERO 油的有效渗透率 PRCOKRW 水的相对渗透率 PRCOKRO 油的相对渗透率 PRCOFW 产水率 PRCOSHSI 泥质与粉砂含量 PRCOSXOF 199*SXO PRCOSWCO 含水饱和度 PRCOWCI 产水率 PRCOWOR 水油比 PRCOCCCO 经过PORT校正后的C/O值 PRCO CCSC 经过PORT校正后的SI/CA值 PRCO CCCS 经过PORT校正后的CA/SI值 PRCO DCO 油水层C/O差值 PRCOXIWA 水线视截距 PRCOCOWA 视水线值 PRCOCONM 视油线值 PRCOCPRW 产水率(C/O计算) PRCOCOAL 煤层 CRAOTHR 重矿物的百分比含量 CRASALT 盐岩的百分比含量 CRASAND 砂岩的百分比含量 CRALIME 石灰岩的百分比含量 CRADOLM 白云岩的百分比含量 CRA ANHY 硬石膏的百分比含量 CRA ANDE 安山岩的百分比含量 CRA BASD 中性侵入岩百分比含量 CRA DIAB 辉长岩的百分比含量 CRA CONG 角砾岩的百分比含量 CRA TUFF 凝灰岩的百分比含量 CRA GRAV 中砾岩的百分比含量 CRA BASA 玄武岩的百分比含量 CRA常用测井曲线名称(转自博客石油)A1R1 T1R1声波幅度A1R2 T1R2声波幅度A2R1 T2R1声波幅度A2R2 T2R2声波幅度AAC 声波附加值AAVG 第一扇区平均值AC 声波时差AF10 阵列感应电阻率AF20 阵列感应电阻率AF30 阵列感应电阻率AF60 阵列感应电阻率AF90 阵列感应电阻率AFRT 阵列感应电阻率AFRX 阵列感应电阻率AIMP 声阻抗AIPD 密度孔隙度AIPN 中子孔隙度AMAV 声幅AMAX 最大声幅AMIN 最小声幅AMP1 第一扇区的声幅值AMP2 第二扇区的声幅值AMP3 第三扇区的声幅值AMP4 第四扇区的声幅值AMP5 第五扇区的声幅值AMP6 第六扇区的声幅值AMVG 平均声幅AO10 阵列感应电阻率AO20 阵列感应电阻率AO30 阵列感应电阻率AO60 阵列感应电阻率AO90 阵列感应电阻率AOFF 截止值AORT 阵列感应电阻率AORX 阵列感应电阻率APLC 补偿中子AR10 方位电阻率AR11 方位电阻率AR12 方位电阻率ARO1 方位电阻率ARO2 方位电阻率ARO3 方位电阻率ARO4 方位电阻率ARO5 方位电阻率ARO6 方位电阻率ARO7 方位电阻率ARO8 方位电阻率ARO9 方位电阻率AT10 阵列感应电阻率AT20 阵列感应电阻率AT30 阵列感应电阻率AT60 阵列感应电阻率AT90 阵列感应电阻率ATAV 平均衰减率ATC1 声波衰减率ATC2 声波衰减率ATC3 声波衰减率ATC4 声波衰减率ATC5 声波衰减率ATC6 声波衰减率ATMN 最小衰减率ATRT 阵列感应电阻率ATRX 阵列感应电阻率AZ 1号极板方位AZ1 1号极板方位AZI 1号极板方位AZIM 井斜方位BGF 远探头背景计数率BGN 近探头背景计数率BHTA 声波传播时间数据BHTT 声波幅度数据BLKC 块数BS 钻头直径BTNS 极板原始数据C1 井径C2 井径C3 井径CAL 井径CAL1 井径CAL2 井径CALI 井径CALS 井径CASI 钙硅比CBL 声波幅度CCL 磁性定位CEMC 水泥图CGR 自然伽马CI 总能谱比CMFF 核磁共振自由流体体积CMRP 核磁共振有效孔隙度CN 补偿中子CNL 补偿中子CO 碳氧比CON1 感应电导率COND 感应电导率CORR 密度校正值D2EC 200兆赫兹介电常数D4EC 47兆赫兹介电常数DAZ 井斜方位DCNT 数据计数DEN 补偿密度DEN_1 岩性密度DEPTH 测量深度DEV 井斜DEVI 井斜DFL 数字聚焦电阻率DIA1 井径DIA2 井径DIA3 井径DIFF 核磁差谱DIP1 地层倾角微电导率曲线1 DIP1_1 极板倾角曲线DIP2 地层倾角微电导率曲线2 DIP2_1 极板倾角曲线DIP3 地层倾角微电导率曲线3DIP3_1 极板倾角曲线DIP4 地层倾角微电导率曲线4 DIP4_1 极板倾角曲线DIP5 极板倾角曲线DIP6 极板倾角曲线DRH 密度校正值DRHO 密度校正值DT 声波时差DT1 下偶极横波时差DT2 上偶极横波时差DT4P 纵横波方式单极纵波时差DT4S 纵横波方式单极横波时差DTL 声波时差DTST 斯通利波时差ECHO 回波串ECHOQM 回波串ETIMD 时间FAMP 泥浆幅度FAR 远探头地层计数率FCC 地层校正FDBI 泥浆探测器增益FDEN 流体密度FGAT 泥浆探测器门限FLOW 流量FPLC 补偿中子FTIM 泥浆传播时间GAZF Z轴加速度数据GG01 屏蔽增益GG02 屏蔽增益GG03 屏蔽增益GG04 屏蔽增益GG05 屏蔽增益GG06 屏蔽增益GR 自然伽马GR2 同位素示踪伽马HAZI 井斜方位HDRS 深感应电阻率HFK 钾HMRS 中感应电阻率HSGR 无铀伽马HTHO 钍HUD 持水率HURA 铀IDPH 深感应电阻率IMPH 中感应电阻率K 钾KCMR 核磁共振渗透率KTH 无铀伽马LCAL 井径LDL 岩性密度LLD 深侧向电阻率LLD3 深三侧向电阻率LLD7 深七侧向电阻率LLHR 高分辨率侧向电阻率LLS 浅侧向电阻率LLS3 浅三侧向电阻率LLS7 浅七侧向电阻率M1R10 高分辨率阵列感应电阻率M1R120 高分辨率阵列感应电阻率M1R20 高分辨率阵列感应电阻率M1R30 高分辨率阵列感应电阻率M1R60 高分辨率阵列感应电阻率M1R90 高分辨率阵列感应电阻率M2R10 高分辨率阵列感应电阻率M2R120 高分辨率阵列感应电阻率M2R20 高分辨率阵列感应电阻率M2R30 高分辨率阵列感应电阻率M2R60 高分辨率阵列感应电阻率M2R90 高分辨率阵列感应电阻率M4R10 高分辨率阵列感应电阻率M4R120 高分辨率阵列感应电阻率M4R20 高分辨率阵列感应电阻率M4R30 高分辨率阵列感应电阻率M4R60 高分辨率阵列感应电阻率M4R90 高分辨率阵列感应电阻率MBVI 核磁共振束缚流体体积MBVM 核磁共振自由流体体积MCBW 核磁共振粘土束缚水ML1 微电位电阻率ML2 微梯度电阻率MPHE 核磁共振有效孔隙度MPHS 核磁共振总孔隙度MPRM 核磁共振渗透率MSFL 微球型聚焦电阻率NCNT 磁北极计数NEAR 近探头地层计数率NGR 中子伽马NPHI 补偿中子P01 第1组分孔隙度P02 第2组分孔隙度P03 第3组分孔隙度P04 第4组分孔隙度P05 第5组分孔隙度P06 第6组分孔隙度P07 第7组分孔隙度P08 第8组分孔隙度P09 第9组分孔隙度P10 第10组分孔隙度P11 第11组分孔隙度P12 第12组分孔隙度P1AZ 1号极板方位P1AZ_1 2号极板方位P1BTN 极板原始数据P2BTN 极板原始数据P2HS 200兆赫兹相位角P3BTN 极板原始数据P4BTN 极板原始数据P4HS 47兆赫兹相位角P5BTN 极板原始数据P6BTN 极板原始数据PAD1 1号极板电阻率曲线PAD2 2号极板电阻率曲线PAD3 3号极板电阻率曲线PAD4 4号极板电阻率曲线PAD5 5号极板电阻率曲线PAD6 6号极板电阻率曲线PADG 极板增益PD6G 屏蔽电压PE 光电吸收截面指数PEF 光电吸收截面指数PEFL 光电吸收截面指数PERM-IND 核磁共振渗透率POTA 钾PPOR 核磁T2谱PPORB 核磁T2谱PPORC 核磁T2谱PR 泊松比PRESSURE 压力QA 加速计质量QB 磁力计质量QRTT 反射波采集质量R04 0.4米电位电阻率R045 0.45米电位电阻率R05 0.5米电位电阻率R1 1米底部梯度电阻率R25 2.5米底部梯度电阻率R4 4米底部梯度电阻率R4AT 200兆赫兹幅度比R4AT_1 47兆赫兹幅度比R4SL 200兆赫兹电阻率R4SL_1 47兆赫兹电阻率R6 6米底部梯度电阻率R8 8米底部梯度电阻率RAD1 井径(极板半径)RAD2 井径(极板半径)RAD3 井径(极板半径)RAD4 井径(极板半径)RAD5 井径(极板半径)RAD6 井径(极板半径)RADS 井径(极板半径)RATI 地层比值RB 相对方位RB_1 相对方位角RBOF 相对方位RD 深侧向电阻率RFOC 八侧向电阻率RHOB 岩性密度RHOM 岩性密度RILD 深感应电阻率RILM 中感应电阻率RLML 微梯度电阻率RM 钻井液电阻率RMLL 微侧向电阻率RMSF 微球型聚焦电阻率RNML 微电位电阻率ROT 相对方位RPRX 邻近侧向电阻率RS 浅侧向电阻率SDBI 特征值增益SFL 球型聚焦电阻率SFLU 球型聚焦电阻率SGAT 采样时间SGR 无铀伽马SICA 硅钙比SIG 井周成像特征值SIGC 俘获截面SIGC2 示踪俘获截面SMOD 横波模量SNL 井壁中子SNUM 特征值数量SP 自然电位SPER 特征值周期T2 核磁T2谱T2-BIN-A 核磁共振区间孔隙度T2-BIN-B 核磁共振区间孔隙度T2-BIN-PR 核磁共振区间孔隙度T2GM T2分布对数平均值T2LM T2分布对数平均值TEMP 井温TH 钍THOR 钍TKRA 钍钾比TPOR 核磁共振总孔隙度TRIG 模式标志TS 横波时差TT1 上发射上接受的传播时间TT2 上发射下接受的传播时间TT3 下发射上接受的传播时间TT4 下发射下接受的传播时间TURA 钍铀比U 铀UKRA 铀钾比URAN 铀VAMP 扇区水泥图VDL 声波变密度VMVM 核磁共振自由流体体积VPVS 纵横波速度比WAV1 第一扇区的波列WAV2 第二扇区的波列WAV3 第三扇区的波列WAV4 第四扇区的波列WAV5 第五扇区的波列WAV6 第六扇区的波列WAVE 变密度图WF 全波列波形ZCORR 密度校正值测井曲线代码一览表常用测井曲线名称测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formationresistivity 冲洗带地层电阻率Ild deep investigate induction log深探测感应测井Ilm medium investigate induction log中探测感应测井Ils shallow investigate induction log浅探测感应测井Rd deep investigate double lateral resistivity log深双侧向电阻率测井Rs shallow investigate double 浅双侧向电阻率测井lateral resistivity logRMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马常用测井曲线名称测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formation resistivity 冲洗带地层电阻率Ild deep investigate induction log 深探测感应测井Ilm medium investigate induction log 中探测感应测井Ils shallow investigate induction log 浅探测感应测井Rd deep investigate double lateral resistivity log 深双侧向电阻率测井Rs shallow investigate double lateral resistivity log 浅双侧向电阻率测井RMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马5700系列的测井项目及曲线名称Star Imager 微电阻率扫描成像CBIL 井周声波成像MAC 多极阵列声波成像MRIL 核磁共振成像TBRT 薄层电阻率DAC 阵列声波DVRT 数字垂直测井HDIP 六臂倾角MPHI 核磁共振有效孔隙度MBVM 可动流体体积MBVI 束缚流体体积MPERM 核磁共振渗透率Echoes 标准回波数据T2 Dist T2分布数据TPOR 总孔隙度BHTA 声波幅度BHTT 声波返回时间Image DIP 图像的倾角COMP AMP 纵波幅度Shear AMP 横波幅度COMP ATTN 纵波衰减Shear ATTN 横波衰减RADOUTR 井眼的椭圆度Dev 井斜。
测井曲线常用英文名称
测井曲线常用英文等常用测井曲线名称中英文对照第一道主要为反映岩性的测井曲线道,包括:自然电位测井曲线――曲线符号为SP、记录单位mv;自然伽马测井曲线――曲线符号为GR、记录单位API;井径测井曲线――曲线符号为CAL,记录单位in或cm;岩性密度测井曲线(光电吸收界面指数)――曲线符号为PE;第二道是深度道;通常的深度比例尺为1:200 或1:500第三道是反映含油性的测井曲线道,包括深中浅三条电阻率测井曲线,分别是:深侧向测井曲线――曲线符号为LLD、记录单位Ωm;浅侧向测井曲线――曲线符号为LLS、记录单位Ωm;微球形聚焦测井曲线――曲线符号为MSFL、记录单位Ωm;电阻率测井曲线通常为对数刻度。
第四道为反映孔隙度的测井曲线道,包括:密度测井曲线――曲线符号为DEN或RHOB,记录单位g/cm3;中子测井曲线――曲线符号为CNL或PHIN,记录单位%,有时为v/v。
声波测井曲线――曲线符号为AC或DT,记录单位us/ft,有时为us/m。
中子和密度测井曲线的刻度的特点是保证在含水砂岩层上两条曲线重迭,在含气层上,密度孔隙度大于中子孔隙度,在泥岩层上,中子孔隙度大于密度孔隙度;第五道是反映粘土矿物类型的测井曲线道,包括自然伽马能谱测井中的三条曲线:放射性钍测井曲线――曲线符号为Th或THOR,记录单位是ppm;放射性铀测井曲线――曲线符号为U或URAN,记录单位ppm;放射性钾测井曲线――曲线符号为K或POTA,记录单位%,有时为v/v。
测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formation resistivity 冲洗带地层电阻率Ild deep investigate induction log 深探测感应测井Ilm medium investigate induction log 中探测感应测井Ils shallow investigate induction log 浅探测感应测井Rd deep investigate double lateral resistivity log 深双侧向电阻率测井Rs shallow investigate double lateral resistivity log 浅双侧向电阻率测井RMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马---------------------------------------------------GRSL—能谱自然伽马POR 孔隙度NEWSANDPORW 含水孔隙度NEWSANDPORF 冲洗带含水孔隙度NEWSANDPORT 总孔隙度NEWSANDPORX 流体孔隙度NEWSANDPORH 油气重量NEWSANDBULK 出砂指数NEWSANDPERM 渗透率NEWSANDSW 含水饱和度NEWSANDSH 泥质含量NEWSANDCALO 井径差值NEWSANDCL 粘土含量NEWSANDDHY 残余烃密度NEWSANDSXO 冲洗带含水饱和度NEWSANDDA 第一判别向量的判别函数NEWSANDDB 第二判别向量的判别函数NEWSAND DAB 综合判别函数NEWSANDCI 煤层标志NEWSANDCARB 煤的含量NEWSANDTEMP 地层温度NEWSANDQ 评价泥质砂岩油气层产能的参数NEWSAND PI 评价泥质砂岩油气层产能的参数NEWSAND SH 泥质体积CLASSSW 总含水饱和度CLASSPOR 有效孔隙度CLASSPORG 气指数CLASSCHR 阳离子交换能力与含氢量的比值CLASS CL 粘土体积CLASSPORW 含水孔隙度CLASSPORF 冲洗带饱含泥浆孔隙度CLASSCALC 井径差值CLASSDHYC 烃密度CLASSPERM 绝对渗透率CLASSPIH 油气有效渗透率CLASSPIW 水的有效渗透率CLASSCLD 分散粘土体积CLASSCLL 层状粘土体积CLASSCLS 结构粘土体积CLASSEPOR 有效孔隙度CLASSESW 有效含水饱和度CLASSTPI 钍钾乘积指数CLASSPOTV 100%粘土中钾的体积CLASSCEC 阳离子交换能力CLASSQV 阳离子交换容量CLASSBW 粘土中的束缚水含量CLASSEPRW 含水有效孔隙度CLASSUPOR 总孔隙度,UPOR=EPOR+BW CLASSHI 干粘土骨架的含氢指数CLASSBWCL 粘土束缚水含量CLASSTMON 蒙脱石含量CLASSTILL 伊利石含量CLASSTCHK 绿泥石和高岭石含量CLASSVSH 泥质体积CLASSVSW 总含水饱和度CLASSVPOR 有效孔隙度CLASSVPOG 气指数CLASSVCHR 阳离子交换能力与含氢量的比值CLASS VCL 粘土体积CLASSVPOW 含水孔隙度CLASSVPOF 冲洗带饱含泥浆孔隙度CLASSVCAC 井径差值CLASSVDHY 烃密度CLASSVPEM 绝对渗透率CLASSVPIH 油气有效渗透率CLASSVPIW 水的有效渗透率CLASSVCLD 分散粘土体积CLASSVCLL 层状粘土体积CLASSVCLS 结构粘土体积CLASSVEPO 有效孔隙度CLASSVESW 有效含水饱和度CLASSVTPI 钍钾乘积指数CLASSVPOV 100%粘土中钾的体积CLASSVCEC 阳离子交换能力CLASSVQV 阳离子交换容量CLASSVBW 粘土中的束缚水含量CLASSVEPR 含水有效孔隙度CLASSVUPO 总孔隙度CLASSVHI 干粘土骨架的含氢指数CLASSVBWC 粘土束缚水含量CLASSVTMO 蒙脱石含量CLASSVTIL 伊利石含量CLASSVTCH 绿泥石和高岭石含量CLASSQW井筒水流量PLIQT井筒总流量PLISK射孔井段PLIPQW单层产水量PLIPQT单层产液量PLIWEQ 相对吸水量ZRPMPEQ 相对吸水强度ZRPMPOR 孔隙度PRCOPORW 含水孔隙度PRCOPORF 冲洗带含水孔隙度PRCOPORT 总孔隙度PRCOPORX 流体孔隙度PRCOPORH 油气重量PRCOBULK 出砂指数PRCOHF 累计烃米数PRCOPF 累计孔隙米数PRCOPERM 渗透率PRCOSW 含水饱和度PRCOSH 泥质含量PRCOCALO 井径差值PRCOCL 粘土含量PRCODHY 残余烃密度PRCOSXO 冲洗带含水饱和度PRCOSWIR 束缚水饱和度PRCOPERW 水的有效渗透率PRCOPERO 油的有效渗透率PRCOKRW 水的相对渗透率PRCOKRO 油的相对渗透率PRCOFW 产水率PRCOSHSI 泥质与粉砂含量PRCOSXOF 199*SXO PRCOSWCO 含水饱和度PRCOWCI 产水率PRCOWOR 水油比PRCOCCCO 经过PORT校正后的C/O值PRCO CCSC 经过PORT校正后的SI/CA值PRCO CCCS 经过PORT校正后的CA/SI值PRCO DCO 油水层C/O差值PRCOXIWA 水线视截距PRCOCOWA 视水线值PRCOCONM 视油线值PRCOCPRW 产水率(C/O计算)PRCOCOAL 煤层CRAOTHR 重矿物的百分比含量CRASALT 盐岩的百分比含量CRASAND 砂岩的百分比含量CRALIME 石灰岩的百分比含量CRADOLM 白云岩的百分比含量CRAANHY 硬石膏的百分比含量CRAANDE 安山岩的百分比含量CRABASD 中性侵入岩百分比含量CRADIAB 辉长岩的百分比含量CRACONG 角砾岩的百分比含量CRATUFF 凝灰岩的百分比含量CRAGRAV 中砾岩的百分比含量CRABASA 玄武岩的百分比含量CRA常用测井曲线名称(转自博客石油)A1R1 T1R1声波幅度A1R2 T1R2声波幅度A2R1 T2R1声波幅度A2R2 T2R2声波幅度AAC 声波附加值AAVG 第一扇区平均值AC 声波时差AF10 阵列感应电阻率AF20 阵列感应电阻率AF30 阵列感应电阻率AF60 阵列感应电阻率AF90 阵列感应电阻率AFRT 阵列感应电阻率AFRX 阵列感应电阻率AIMP 声阻抗AIPD 密度孔隙度AIPN 中子孔隙度AMAV 声幅AMAX 最大声幅AMIN 最小声幅AMP1 第一扇区的声幅值AMP2 第二扇区的声幅值AMP3 第三扇区的声幅值AMP4 第四扇区的声幅值AMP5 第五扇区的声幅值AMP6 第六扇区的声幅值AMVG 平均声幅AO10 阵列感应电阻率AO20 阵列感应电阻率AO30 阵列感应电阻率AO60 阵列感应电阻率AO90 阵列感应电阻率AOFF 截止值AORT 阵列感应电阻率AORX 阵列感应电阻率APLC 补偿中子AR10 方位电阻率AR11 方位电阻率AR12 方位电阻率ARO1 方位电阻率ARO2 方位电阻率ARO3 方位电阻率ARO4 方位电阻率ARO5 方位电阻率ARO6 方位电阻率ARO7 方位电阻率ARO8 方位电阻率ARO9 方位电阻率AT10 阵列感应电阻率AT20 阵列感应电阻率AT30 阵列感应电阻率AT60 阵列感应电阻率AT90 阵列感应电阻率ATAV 平均衰减率ATC1 声波衰减率ATC2 声波衰减率ATC3 声波衰减率ATC4 声波衰减率ATC5 声波衰减率ATC6 声波衰减率ATMN 最小衰减率ATRT 阵列感应电阻率ATRX 阵列感应电阻率AZ 1号极板方位AZ1 1号极板方位AZI 1号极板方位AZIM 井斜方位BGF 远探头背景计数率BGN 近探头背景计数率BHTA 声波传播时间数据BHTT 声波幅度数据BLKC 块数BS 钻头直径BTNS 极板原始数据C1 井径C2 井径C3 井径CAL 井径CAL1 井径CAL2 井径CALI 井径CALS 井径CASI 钙硅比CBL 声波幅度CCL 磁性定位CEMC 水泥图CGR 自然伽马CI 总能谱比CMFF 核磁共振自由流体体积CMRP 核磁共振有效孔隙度CN 补偿中子CNL 补偿中子CO 碳氧比CON1 感应电导率COND 感应电导率CORR 密度校正值D2EC 200兆赫兹介电常数D4EC 47兆赫兹介电常数DAZ 井斜方位DCNT 数据计数DEN 补偿密度DEN_1 岩性密度DEPTH 测量深度DEV 井斜DEVI 井斜DFL 数字聚焦电阻率DIA1 井径DIA2 井径DIA3 井径DIFF 核磁差谱DIP1 地层倾角微电导率曲线1 DIP1_1 极板倾角曲线DIP2 地层倾角微电导率曲线2 DIP2_1 极板倾角曲线DIP3 地层倾角微电导率曲线3 DIP3_1 极板倾角曲线DIP4 地层倾角微电导率曲线4 DIP4_1 极板倾角曲线DIP5 极板倾角曲线DIP6 极板倾角曲线DRH 密度校正值DRHO 密度校正值DT 声波时差DT1 下偶极横波时差DT2 上偶极横波时差DT4P 纵横波方式单极纵波时差DT4S 纵横波方式单极横波时差DTL 声波时差DTST 斯通利波时差ECHO 回波串ECHOQM 回波串ETIMD 时间FAMP 泥浆幅度FAR 远探头地层计数率FCC 地层校正FDBI 泥浆探测器增益FDEN 流体密度FGAT 泥浆探测器门限FLOW 流量FPLC 补偿中子FTIM 泥浆传播时间GAZF Z轴加速度数据GG01 屏蔽增益GG02 屏蔽增益GG03 屏蔽增益GG04 屏蔽增益GG05 屏蔽增益GG06 屏蔽增益GR 自然伽马GR2 同位素示踪伽马HAZI 井斜方位HDRS 深感应电阻率HFK 钾HMRS 中感应电阻率HSGR 无铀伽马HTHO 钍HUD 持水率HURA 铀IDPH 深感应电阻率IMPH 中感应电阻率K 钾KCMR 核磁共振渗透率KTH 无铀伽马LCAL 井径LDL 岩性密度LLD 深侧向电阻率LLD3 深三侧向电阻率LLD7 深七侧向电阻率LLHR 高分辨率侧向电阻率LLS 浅侧向电阻率LLS3 浅三侧向电阻率LLS7 浅七侧向电阻率M1R10 高分辨率阵列感应电阻率M1R120 高分辨率阵列感应电阻率M1R20 高分辨率阵列感应电阻率M1R30 高分辨率阵列感应电阻率M1R60 高分辨率阵列感应电阻率M1R90 高分辨率阵列感应电阻率M2R10 高分辨率阵列感应电阻率M2R120 高分辨率阵列感应电阻率M2R20 高分辨率阵列感应电阻率M2R30 高分辨率阵列感应电阻率M2R60 高分辨率阵列感应电阻率M2R90 高分辨率阵列感应电阻率M4R10 高分辨率阵列感应电阻率M4R120 高分辨率阵列感应电阻率M4R20 高分辨率阵列感应电阻率M4R30 高分辨率阵列感应电阻率M4R60 高分辨率阵列感应电阻率M4R90 高分辨率阵列感应电阻率MBVI 核磁共振束缚流体体积MBVM 核磁共振自由流体体积MCBW 核磁共振粘土束缚水ML1 微电位电阻率ML2 微梯度电阻率MPHE 核磁共振有效孔隙度MPHS 核磁共振总孔隙度MPRM 核磁共振渗透率MSFL 微球型聚焦电阻率NCNT 磁北极计数NEAR 近探头地层计数率NGR 中子伽马NPHI 补偿中子P01 第1组分孔隙度P02 第2组分孔隙度P03 第3组分孔隙度P04 第4组分孔隙度P05 第5组分孔隙度P06 第6组分孔隙度P07 第7组分孔隙度P08 第8组分孔隙度P09 第9组分孔隙度P10 第10组分孔隙度P11 第11组分孔隙度P12 第12组分孔隙度P1AZ 1号极板方位P1AZ_1 2号极板方位P1BTN 极板原始数据P2BTN 极板原始数据P2HS 200兆赫兹相位角P3BTN 极板原始数据P4BTN 极板原始数据P4HS 47兆赫兹相位角P5BTN 极板原始数据P6BTN 极板原始数据PAD1 1号极板电阻率曲线PAD2 2号极板电阻率曲线PAD3 3号极板电阻率曲线PAD4 4号极板电阻率曲线PAD5 5号极板电阻率曲线PAD6 6号极板电阻率曲线PADG 极板增益PD6G 屏蔽电压PE 光电吸收截面指数PEF 光电吸收截面指数PEFL 光电吸收截面指数PERM-IND 核磁共振渗透率POTA 钾PPOR 核磁T2谱PPORB 核磁T2谱PPORC 核磁T2谱PR 泊松比PRESSURE 压力QA 加速计质量QB 磁力计质量QRTT 反射波采集质量R04 0.4米电位电阻率R045 0.45米电位电阻率R05 0.5米电位电阻率R1 1米底部梯度电阻率R25 2.5米底部梯度电阻率R4 4米底部梯度电阻率R4AT 200兆赫兹幅度比R4AT_1 47兆赫兹幅度比R4SL 200兆赫兹电阻率R4SL_1 47兆赫兹电阻率R6 6米底部梯度电阻率R8 8米底部梯度电阻率RAD1 井径(极板半径)RAD2 井径(极板半径)RAD3 井径(极板半径)RAD4 井径(极板半径)RAD5 井径(极板半径)RAD6 井径(极板半径)RADS 井径(极板半径)RATI 地层比值RB 相对方位RB_1 相对方位角RBOF 相对方位RD 深侧向电阻率RFOC 八侧向电阻率RHOB 岩性密度RHOM 岩性密度RILD 深感应电阻率RILM 中感应电阻率RLML 微梯度电阻率RM 钻井液电阻率RMLL 微侧向电阻率RMSF 微球型聚焦电阻率RNML 微电位电阻率ROT 相对方位RPRX 邻近侧向电阻率RS 浅侧向电阻率SDBI 特征值增益SFL 球型聚焦电阻率SFLU 球型聚焦电阻率SGAT 采样时间SGR 无铀伽马SICA 硅钙比SIG 井周成像特征值SIGC 俘获截面SIGC2 示踪俘获截面SMOD 横波模量SNL 井壁中子SNUM 特征值数量SP 自然电位SPER 特征值周期T2 核磁T2谱T2-BIN-A 核磁共振区间孔隙度T2-BIN-B 核磁共振区间孔隙度T2-BIN-PR 核磁共振区间孔隙度T2GM T2分布对数平均值T2LM T2分布对数平均值TEMP 井温TH 钍THOR 钍TKRA 钍钾比TPOR 核磁共振总孔隙度TRIG 模式标志TS 横波时差TT1 上发射上接受的传播时间TT2 上发射下接受的传播时间TT3 下发射上接受的传播时间TT4 下发射下接受的传播时间TURA 钍铀比U 铀UKRA 铀钾比URAN 铀VAMP 扇区水泥图VDL 声波变密度VMVM 核磁共振自由流体体积VPVS 纵横波速度比WAV1 第一扇区的波列WAV2 第二扇区的波列WAV3 第三扇区的波列WAV4 第四扇区的波列WAV5 第五扇区的波列WAV6 第六扇区的波列WAVE 变密度图WF 全波列波形ZCORR 密度校正值测井曲线代码一览表常用测井曲线名称测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formationresistivity 冲洗带地层电阻率Ild deep investigate induction log深探测感应测井Ilm medium investigate induction log中探测感应测井Ils shallow investigate induction log浅探测感应测井Rd deep investigate double lateral resistivity log深双侧向电阻率测井Rs shallow investigate double 浅双侧向电阻率测井lateral resistivity logRMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马常用测井曲线名称测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formation resistivity 冲洗带地层电阻率Ild deep investigate induction log 深探测感应测井Ilm medium investigate induction log 中探测感应测井Ils shallow investigate induction log 浅探测感应测井Rd deep investigate double lateral resistivity log 深双侧向电阻率测井Rs shallow investigate double lateral resistivity log 浅双侧向电阻率测井RMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马5700系列的测井项目及曲线名称Star Imager 微电阻率扫描成像CBIL 井周声波成像MAC 多极阵列声波成像MRIL 核磁共振成像TBRT 薄层电阻率DAC 阵列声波DVRT 数字垂直测井HDIP 六臂倾角MPHI 核磁共振有效孔隙度MBVM 可动流体体积MBVI 束缚流体体积MPERM 核磁共振渗透率Echoes 标准回波数据T2 Dist T2分布数据TPOR 总孔隙度BHTA 声波幅度BHTT 声波返回时间Image DIP 图像的倾角COMP AMP 纵波幅度Shear AMP 横波幅度COMP ATTN 纵波衰减Shear ATTN 横波衰减RADOUTR 井眼的椭圆度Dev 井斜。
M-100 用户手册说明书
M-100 USER’S MANUALRESEARCH, INNOVATE, CREATE“Whenever I speak about my company I speak with the passion we have. Located in the Paris region of France, I have ensured that Micromega has the best ele-ments of my industrial group at their availability. In an age where music is dematerializing, we are committed to staying at the forefront of technology and growing under our ‘made in France’ banner.The M-one programme, with its incredible audio quality, technical capacity and sleek design represents a major advance in the history of our company. The result of three years of research by our team, we are proud to introduce to you what we believe is the most effective and complete integrated stereo amplifier of its kind.Micromega is synonymous with technological advances, expertise, reliability and sound clarity. All of our products reflect these demands.”Didier HAMDI, CEO MicromegaThe advantages of the M-One amplifier series :• High quality, A/B class amplification• Resonant power supply• Symmetrical design• Asahi Kasei AK4490 DAC converter• Acoustic correction in situ using Room EQ1 and EQ2 (included or as an op-tion)• Binaural processing of the headphone output (included or as an option)• Cover and remote control machined from aluminium block• Android and iOS compatible control app (October 2016)1 - OVERVIEW (4)1.1 Front and top (4)1.2 Back (5)1.3 Sides (ventilation) (6)1.4 Bottom (7)1.5 Infrared remote control (8)2 - CONNECTIONS (9)2.1 Phono input for a vinly turntable (9)2.2 RCA line input (10)2.3 Balanced XLR analogue input (11)2.4 Coaxial digital input (12)2.5 Optical digital input (13)2.6 AES-EBU input (14)2.7 USB input (Type B) (15)2.8 Bluetooth aptX connection (16)2.9 I²S input ..................................................................................................182.10 LAN connection .. (19)2.11 Speaker connections (20)2.12 Connecting headphones (21)2.13 Subwoofer output (22)2.14 Pre-out (23)2.15 Trigger sockets (24)2.16 Mains power supply (25)2.17 Fuse (26)3 - USER GUIDE (27)3.1 Starting up (27)3.2 Choosing your source (28)3.3 Ajusting the balance (29)3.4 A justing sensitivity (30)3.5 Renaming the sources (31)3.6 Updating the M-100 (32)3.7 Updating the network module .................................................... (33)4 - SPECIFICATIONS (34)1.1 Front and topThe M-100 amplifier has two displays so that it can be controlled from any position. The displays will automatically adjust to whichever position the amplifier is in (e.g. flat, attached to wall).There is a headphone socket on the front so that you can listen to your music in complete peace. A “Binaural” process (as an option) allows you to re-create the 3D sound scene through the headphones which is lost in classic stereophonic recordings.On the top of the device are 4 buttons which you can use to adjust the reactions of your amplifier (see section 3.1 for more information).Carefully check that the packaging is intact. If you feel it may have been tampered with or damaged please contact your vendor.Carefully remove your device from the packaging. Store the packaging in a secure, dry place: if you need to return your device to the vendor you will require the original packaging.1. Overview1.2 BACKLine level inputa n a l o gi n p u t s d i g i t a li n pu t s a n a l o gi n p u t s tri g g e rTurntableinput ROOM EQ mic plugBalanced inputCoaxial input AES - EBU inputOptical inputUSB inputI²S inputsLAN input USB update inputLeft binding postPre-outSub-outRight binding postFuseMains power supply Trigger1.3 Sides (ventilation)The M-100 amplifier should be positioned so that it can receive sufficient ventilation. Do not obstruct the air vents on the side of your amplifier. You should leave at least 10cm of space around the air vents.We advise against placing the M-100 inside a closed furniture or space1.4 BottomYou will find a connection guide under your M-100 amplifier which illustrates all of the input and ouput terminals available. Do not try to open the M-100It contains potentiallylife-threatening high voltageTake note that the M-100 has spiked feets. It can harm your furniture. Use the included rubber pads to avoid damage.1.5Infrared remote controlON / OFF MuteChange display sizeAjust volumeInput selector« Bluetooth Connect »- Press and release : pairing will start- Press and hold (for 10 seconds then release) : clear Bluetooth memory2.1 Phono input for a vinyl turntableThe « PHONO » input on the M-100 amplifier is compatible with MM and MC cartridges.You can select the correct cartridge for your turntable using the switch located on the back of the amplifier.• If your turntable has an MM cartridge, you should place the switch in the MM position •If your turntable has an MC cartridge, you should place the switch in the MC positionThere is a ‘GND’ grounding terminal near the Phono plugs so that you can connect the grounding terminal of your record player if necessary.Phono input2. CONNECTIONSMM MC2.2 RCA line inputThe M-100’s « LINE » input can be used to connect any device with RCA analogue output.RCA lineinput2.3 Balanced XLR analogue inputThe M-100’s « BALANCED» input can be used to connect any device with symmetrical analogue output.Balanced XLRanalogue input2.4 Coaxial digital inputThe M-100’s « COAX » input can be used to connect any device with an SPDIF coaxial output.The signal should be a PCM stereo signal up to 32bit/768kHz.Coaxial Digital inputYOUR BLU-RAY OR DVD PLAYER MUST BE CONFIGURED IN PCM ON THE AUDIO OUTPUTOTHERWISE IT COULD PRODUCE AN INTENSE NOISE IN YOUR SPEAKERS AND DAMAGE THEM2.5 Optical digital inputThe M-100’s « OPTO » input can be used to connect any device with a TOSlink digital connection.The signal should be a PCM stereo signal up to 24bit/192kHzOptical digital inputYOUR BLU-RAY OR DVD PLAYER MUST BE CONFIGURED IN PCM ON THE AUDIO OUTPUTOTHERWISE IT COULD PRODUCE AN INTENSE NOISE IN YOUR SPEAKERS AND DAMAGE THEM2.6 AES-EBU InputThe M-100’s « AES » input can be used to connect any device with an AES-EBU connection on XLR. The signal should be a PCM stereo signal up to 32bit/768kHz.AES - EBU input2.7 USB Input (Type B)The M-100’s « USB » input can be used to connect any computer with a USB port.The signal should be a PCM stereo signal up to 32bit/768kHz or DSD/DSD-DoP up to 11.2MHz.A USB driver will be required for any computer using Windows. You can download the driver from the M-One page on the Microme-ga website.For computers using OS X or macOS you will not need an additional driver.USB input2.8 Bluetooth® aptX® connectionThe M-100’s « BT » connection can be used to wirelessly connect smartphones, tablets, computers or MP3 players with Bluetooth®. The Bluetooth® link is compatible with aptX® for the best sound quality. To make this manual easier to read, the term « Smartphone » will be used in this section to mean smartphones, tablets, computers and MP3 players. To connect via Bluetooth® for the first time:• Ensure that the Bluetooth® function on your smartphone is turned on.• Use the remote control to click on the ‘BT’ button.• You should see the « M-ONE » appear on the list of Bluetooth® connections available on your smartphone. To establish a connection select the « M-ONE ».• Launch music on your smartphone.To connect via Bluetooth® with a different smartphone, tablet etc.• Ensure that the Bluetooth® function on your smartphone is turned on.• Use the remote control to click on the ‘BT’ button.• Then press release the « BTC » button on the remote control.• You should see the « M-ONE » appear on the list of Bluetooth® connections available on your smartphone. To establish a connection select the « M-ONE ».• Launch play on your smartphone.The following time you select the BT input :• If the Bluetooth® on your smartphone is turned on, the connection will work automatically once you select the ‘BT’ button on the amplifier using the remote.NB : Bluetooth® is a « point to point » connection. This means that if a tablet is already connected to the amplifier, you will not be able to connect your smartphone at the same time. You will need to disconnect your tablet from the amplifier before connecting your smartphone.2.9 I²S InputThe M-100’s « I²S » inputs are ONLY TO BE USED with future Micromega products.Only for use with MICROMEGA productsI²S input2.10 LAN ConnectionThe M-100 can receive music via its network socket (LAN). In order to do this you must connect an Ethernet cable between your modem/router (Internet box) and the M-ONE.You should use DLNA/UPnP compatible software (e.g. JRiver) on your computer to send music to the M-One.LAN input2.11 Speaker connectionsThe amplifier’s terminal block is compatible with naked cables, banana plugs and fork plugs.Naked cables : reveal approx. 10mm of naked cable. Unscrew the terminal block until there is a gap and insert the cable. Screw the block back into placeBanana plugs : once you have attached the banana plugs to the cable, insert the plug into the centre of the terminal.Fork plugs : once you have attached the fork plugs to the cable, unscrew the terminal block until there is space to insert each fork plug. Screw the block back into placeRight speakerLeft speaker2.12 Connecting headphones at the front of the amplifierYou can connect headphones at the front of the amplifier using a 3.5mm mini-jack. If your headphones have a 6.35mm jack then you will need to use an adapter.Once headphones are connected to the front the speakers are rendered inactive. The headphone and speaker volume controls are separate and memorised independently.This headphone terminal is compatible with the « binaural » process which is available as an option. Micromega has researched HTRF (Head Related Transfer Function) in order to reproduce the original sound scene (in front of you).2.13 Subwoofer outputSortie sub-outYou can connect a Subwoofer to the RCA Sub-Out input. This input has a low pass filter with a limiting frequency of 400 Hz.You should control the cutoff frequency and the volume using the control panel on your subwoofer.2.14 Pre-out line outIf you are using an external power amplifier, please use XLR cables to connect it to the Pre-out terminals. The volume of the Pre-Out terminals is variable and follows the volume indicated on your M-100 amplifier.Pre-out2.15 Trigger socketsTrigger sockets enable the use of the amplifier as part of a home automation system.Trigger IN : Can be used with control voltages from 5 to 12V. The amplifier turns on when this voltage is running through it and off when it isn’t.Trigger OUT : When the amplifier is turned on there are 5V running through the Trigger OUT terminal.TriggerINTriggerOUTUse 3.5 mm mono mini-jack sockets2.16 Mains power supplyMain power supplyWe recommend you connect all of your music sources and speakers before connecting the power e the power cable supplied with your amplifier.Check that the mains supply on the label (packaging or underneath the device)matches the mains supply in situ.2.17 FuseIf you are having electrical problems you may need to change the fuse. Please replace it with an identical fuse to the one originally supplied.Use a flat screwdriver to unscrew the fuse holder.If after changing the fuse, it blows again, please contact your vendor.Fuse3. User Guide3.1 Starting upOnce you have attached all of your music sources, spea-kers and the power supply you can turn it on:• Press and release the red ‘STBY’ button on theremote whilst aiming it at the amplifier.• Press the button on the top left of the amplifier.• Red light will turn off on the productAfter a few seconds you should see the ‘Micromega’logo appear on the displays.To turn off your amplifier, use the same process.ON / Standby3.2 Choosing your sourceUSBAES<OKThe main display (fig. 1) shows which input is active (USB), the volume (20) and any specifications of the input signal (only for digital signals).To change the input source, press on the button at the bottom left.A list of sources will now appear in place of the volume (fig. 2).By using the up and down arrows you can select the desired source and confirm using the « OK » button.If you change your mind and don’t want to change the source, press the top left button ( « < » ) to return to the main display.Fig. 1Fig. 2Point the infrared remote control at the device and use it to select your music source.You can use the buttons at the top of the amplifier to do this if you prefer.USB20192 kHz3.3 Adjusting the balanceUSBBAL<OKFig. 1Fig. 2Adjusting the balance enables you to compensate for any dissymmetry in the two speakers related to your listening position. The volume can be adjusted to be louder on one side than the other (6dB on each side).Adjusting the balance effects all sources.From the main display (fig. 1), press on the button at the bottom left.Scroll through the list until ‘BAL ’ (fig. 2) appears and confirm with ‘OK’A balance screen appears where you can make adjustments. You can confirm any adjustments by selecting ‘OK’ or cancel them using ‘<’.symbolise there is an active balance setting (here to the right)3.4 Adjusting sensitivityFig. 1Fig. 2Adjusting sensitivity enables you to compensate for a signal level difference between your sources (+ or - 6 dB).This adjustment is particular to each input. You should be connected to the source you wish to adjust before starting (in this example we are adjusting the LINE terminal).From the main display (fig. 1), press on the button at the bottom left.Scroll through the list until ‘SENS’ (fig. 2) appears and confirm with ‘OK’A sensitivity screen appears where you can make adjust-ments. You can confirm any adjustments by selecting ‘OK’ or cancel them using ‘<’.SENS<OKsymbolise there is an active sensitivity setting (here, sensitivity is lowered)LINE3.5 Renaming the sources20Fig. 1Fig. 2For certain terminals (AES, OPTO, COAX, LINE, XLR) you can select from a predefined list of names.From the main display (fig. 1), press on the button at the bottom left.Scroll through the list until ‘NAME’ (fig. 2) appears and confirm with ‘OK’Scroll through the list of predefined names and choose the name which you feel suits your source best.You can confirm any adjustments by selecting ‘OK’ or cancel them using ‘<’.NAME<OKLINELINENB: Renaming of all inputs can be done through the Micromega app3.6 Updating the M-100Fig. 1Fig. 2Download the .zip folder which contains updates files on the M-One page of our website: Instructions for updates :- Extract the downloaded .zip on your computer- Copy « M-ONE-Vxx.img » onto a USB key (formatted in FAT)- Turn off your M-100 and disconnect it from the mains. - Insert the USB key 1 into port 1 at the back of the M-100- Reconnect the mains, the update will start (fig.1)- A few moments later, an ‘update completed’ message will appear (fig.2)-Disconnect the mains, take out the USB key and reconnect the mains.Micromega M-one software update USB drive found update file found Update completed.Switch off M-one and remove USB drive.NB : If a update is available, you should update to get the most out of your device.3.7 Updating the network module Download the .zip folder which contains updates files on theM-One page of our website: Instructions for updates :- Extract the downloaded .zip on your computer- On your M-One : go to INFO menu (fig. 1) and take note ofthe IP adress written on the second page (fig. 2)If the IP adress is shown as « 000.000.000.000 », download the mobile application (available on Google Play & App Store). This app will list all the connected devices on your network. You must look the IP adress for « Audio Renderer» or «Micromega M-One». - On your computer : write your IP adress in your browser navigation bar- Follow the instructions to update the network module. Select the « NMR-Vxx.bin » file and validate- The network module may take several minutes before rebootingFig. 1Fig. 2<OKINFO MCU FW 0023Serial number<OKINFO nmrs-eng-efs-v1.11.1.8IP 001 .000 .000 .2034. SpecificationsAmplifier sizeWidth : 430 mm Depth : 350 mmHeight (with spikes) : 56 mmAmplifier weight Net weight : 9 kgGross weight : 10,7 kgPackaging (overbox)Width : 735 mm Depth : 600 mm Height : 150 mmPackaging (box)Width : 685 mm Depth : 542 mm Height : 85 mmPower Consumption Standby : 1W 2 channels -1/8 Pmax under 8 Ohms : 140WRated output power P RMS under 8 Ohms : 2*100W P RMS under 4 Ohms : 2*200WSignal to noise ratio Digital input : 106 dB(A)Balanced analog input : 103 dB(A)Unbalanced analog input : 100 dB(A)Phono MM input : Higher than 75 dB(A)Speaker output residual noise, open inputµV160 : under8OhmsµV200 4: under OhmsOutput impedance @250Hz under 8 Ohms 15mΩ500à Damping factor Sup.Total harmony distorsionTHD, 8 Ohms, 63 Hz : under 0,001% THD, 8 Ohms, 1 kHz : under 0,005% THD, 8 Ohms, 10 kHz : under 0,05% THD, 4 Ohms, 63 Hz : under 0,001% THD, 4 Ohms, 1 kHz : under 0,01% THD, 4 Ohms, 10 kHz : under 0,07%Intermodulation distorsion - SMPTEIMD, from 1W to P NOM, 8 Ohms under 0,01% IMD, from 1W to P NOM, 4 Ohms under 0,02%Intermodulation distorsion - DynamicDIM 30, 50W, 8 Ohms under 0,02% DIM 30, 100W, 4 Ohms under 0,05%Channels separation96dBH z under Crosstalk,1k80dBH z under10kCrosstalk,Analog input sensitivityPhono MM, 47 kOhms 12 mVRMS Phono MC, 110 Ohms 1,2 mVRMSVRMS 1,4 Analogue:VRMS 1,7 :BalancedSub-out outputH z400:frequencyCut-offAUDIS MICROMEGA13-15 rue du 8 Mai 194594470 Boissy-Saint-LégerFRANCE parisFRANCE01.02.03.04.05*********************/micromegahifi。
Y、Y2、Y3系列电机样本
0.12
—
63M2
0.25
0.18
—
71M1
0.37
0.25
0.18
71M2
0.55
0.37
0.25
80M1
0.75
0.55
0.37
0.18
80M2
1.1
0.75
0.55
0.25
90S
1.5
1.1
0.75
0.37
90L
2.2
1.5
1.1
0.55
100L1 3
100L2
2.2
0.75
1.5
3
1.1
112M
4
4
2.2
1.5
132S1
5.5
5.5
3
2.2
132S2
7.5
132M1
4
—
—
7.5
3
132M2
5.5
160M1
11
4
11
7.5
160M2
15
5.5
160L
18.5
15
11
7.5
180M
22
18.5
—
—
180L
—
22
15
11
200L1
测井曲线名称汇总
测井曲线名称汇总测井曲线名称汇总(可能有重复,请谅解)测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formation resistivity 冲洗带地层电阻率Ild deep investigate induction log 深探测感应测井Ilm medium investigate induction log 中探测感应测井Ils shallow investigate induction log 浅探测感应测井Rd deep investigate double lateral resistivity log 深双侧向电阻率测井Rs shallow investigate double lateral resistivity log 浅双侧向电阻率测井RMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马--------------------------------------------------- GRSL—能谱自然伽马POR 孔隙度 NEWSANDPORW 含水孔隙度 NEWSANDPORF 冲洗带含水孔隙度 NEWSANDPORT 总孔隙度 NEWSANDPORX 流体孔隙度 NEWSANDPORH 油气重量 NEWSANDBULK 出砂指数 NEWSANDPERM 渗透率 NEWSANDSW 含水饱和度 NEWSANDSH 泥质含量 NEWSANDCALO 井径差值 NEWSANDCL 粘土含量 NEWSANDDHY 残余烃密度 NEWSANDSXO 冲洗带含水饱和度 NEWSANDDA 第一判别向量的判别函数 NEWSANDDB 第二判别向量的判别函数 NEWSANDDAB 综合判别函数 NEWSANDCI 煤层标志 NEWSANDCARB 煤的含量 NEWSANDTEMP 地层温度 NEWSANDQ 评价泥质砂岩油气层产能的参数 NEWSAND PI 评价泥质砂岩油气层产能的参数 NEWSAND SH 泥质体积 CLASSSW 总含水饱和度 CLASSPOR 有效孔隙度 CLASSPORG 气指数 CLASSCHR 阳离子交换能力与含氢量的比值 CLASS CL 粘土体积 CLASSPORW 含水孔隙度 CLASSPORF 冲洗带饱含泥浆孔隙度 CLASSCALC 井径差值 CLASSDHYC 烃密度 CLASSPERM 绝对渗透率 CLASSPIH 油气有效渗透率 CLASSPIW 水的有效渗透率 CLASSCLD 分散粘土体积 CLASSCLL 层状粘土体积 CLASSCLS 结构粘土体积 CLASSEPOR 有效孔隙度 CLASSESW 有效含水饱和度 CLASSTPI 钍钾乘积指数 CLASSPOTV 100%粘土中钾的体积 CLASSCEC 阳离子交换能力 CLASSQV 阳离子交换容量 CLASSBW 粘土中的束缚水含量 CLASSEPRW 含水有效孔隙度 CLASSUPOR 总孔隙度,UPOR=EPOR+BW CLASSHI 干粘土骨架的含氢指数 CLASSBWCL 粘土束缚水含量 CLASSTMON 蒙脱石含量 CLASSTILL 伊利石含量 CLASSTCHK 绿泥石和高岭石含量 CLASSVSH 泥质体积 CLASSVSW 总含水饱和度 CLASSVPOR 有效孔隙度 CLASSVPOG 气指数 CLASSVCHR 阳离子交换能力与含氢量的比值 CLASS VCL 粘土体积 CLASSVPOW 含水孔隙度 CLASSVPOF 冲洗带饱含泥浆孔隙度 CLASSVCAC 井径差值 CLASSVDHY 烃密度 CLASSVPEM 绝对渗透率 CLASSVPIH 油气有效渗透率 CLASS VPIW 水的有效渗透率 CLASS VCLD 分散粘土体积 CLASSVCLL 层状粘土体积 CLASSVCLS 结构粘土体积 CLASSVEPO 有效孔隙度 CLASSVESW 有效含水饱和度 CLASS VTPI 钍钾乘积指数 CLASSVPOV 100%粘土中钾的体积 CLASS VCEC 阳离子交换能力 CLASSVQV 阳离子交换容量 CLASSVBW 粘土中的束缚水含量 CLASS VEPR 含水有效孔隙度 CLASS VUPO 总孔隙度CLASSVHI 干粘土骨架的含氢指数 CLASS VBWC 粘土束缚水含量 CLASS VTMO 蒙脱石含量 CLASSVTIL 伊利石含量 CLASSVTCH 绿泥石和高岭石含量 CLASSQW 井筒水流量 PLIQT 井筒总流量 PLISK 射孔井段 PLIPQW 单层产水量 PLIPQT 单层产液量 PLIWEQ 相对吸水量 ZRPMPEQ 相对吸水强度 ZRPM POR 孔隙度 PRCOPORW 含水孔隙度 PRCO PORF 冲洗带含水孔隙度 PRCO PORT 总孔隙度 PRCOPORX 流体孔隙度 PRCO PORH 油气重量 PRCOBULK 出砂指数 PRCOHF 累计烃米数 PRCOPF 累计孔隙米数 PRCO PERM 渗透率 PRCOSW 含水饱和度 PRCOSH 泥质含量 PRCOCALO 井径差值 PRCOCL 粘土含量 PRCODHY 残余烃密度 PRCOSXO 冲洗带含水饱和度 PRCOSWIR 束缚水饱和度 PRCOPERW 水的有效渗透率 PRCOPERO 油的有效渗透率 PRCOKRW 水的相对渗透率 PRCOKRO 油的相对渗透率 PRCOFW 产水率 PRCOSHSI 泥质与粉砂含量 PRCOSXOF 199*SXO PRCOSWCO 含水饱和度 PRCOWCI 产水率 PRCOWOR 水油比 PRCOCCCO 经过PORT校正后的C/O值PRCO CCSC 经过PORT校正后的SI/CA值 PRCO CCCS 经过PORT校正后的CA/SI值 PRCO DCO 油水层C/O差值 PRCOXIWA 水线视截距 PRCOCOWA 视水线值 PRCOCONM 视油线值 PRCOCPRW 产水率(C/O计算) PRCOCOAL 煤层 CRAOTHR 重矿物的百分比含量 CRASALT 盐岩的百分比含量 CRA SAND 砂岩的百分比含量 CRA LIME 石灰岩的百分比含量 CRA DOLM 白云岩的百分比含量 CRA ANHY 硬石膏的百分比含量 CRA ANDE 安山岩的百分比含量 CRA BASD 中性侵入岩百分比含量 CRA DIAB 辉长岩的百分比含量 CRA CONG 角砾岩的百分比含量 CRA TUFF 凝灰岩的百分比含量 CRA GRAV 中砾岩的百分比含量 CRA BASA 玄武岩的百分比含量 CRA常用测井曲线名称A1R1 T1R1声波幅度A1R2 T1R2声波幅度A2R1 T2R1声波幅度A2R2 T2R2声波幅度AAC 声波附加值AAVG 第一扇区平均值AC 声波时差AF10 阵列感应电阻率AF20 阵列感应电阻率AF30 阵列感应电阻率AF60 阵列感应电阻率AF90 阵列感应电阻率AFRT 阵列感应电阻率AFRX 阵列感应电阻率AIMP 声阻抗AIPD 密度孔隙度AIPN 中子孔隙度AMAV 声幅AMAX 最大声幅AMIN 最小声幅AMP1 第一扇区的声幅值AMP2 第二扇区的声幅值AMP3 第三扇区的声幅值AMP4 第四扇区的声幅值AMP5 第五扇区的声幅值AMP6 第六扇区的声幅值AMVG 平均声幅AO10 阵列感应电阻率AO20 阵列感应电阻率AO30 阵列感应电阻率AO60 阵列感应电阻率AO90 阵列感应电阻率AOFF 截止值AORT 阵列感应电阻率AORX 阵列感应电阻率APLC 补偿中子AR10 方位电阻率AR11 方位电阻率AR12 方位电阻率ARO1 方位电阻率ARO2 方位电阻率ARO3 方位电阻率ARO4 方位电阻率ARO5 方位电阻率ARO6 方位电阻率ARO7 方位电阻率ARO8 方位电阻率ARO9 方位电阻率AT10 阵列感应电阻率AT20 阵列感应电阻率AT30 阵列感应电阻率AT60 阵列感应电阻率AT90 阵列感应电阻率ATAV 平均衰减率ATC1 声波衰减率ATC2 声波衰减率ATC3 声波衰减率ATC4 声波衰减率ATC5 声波衰减率ATC6 声波衰减率ATMN 最小衰减率ATRT 阵列感应电阻率ATRX 阵列感应电阻率AZ 1号极板方位AZ1 1号极板方位AZI 1号极板方位AZIM 井斜方位BGF 远探头背景计数率BGN 近探头背景计数率BHTA 声波传播时间数据BHTT 声波幅度数据BLKC 块数BS 钻头直径BTNS 极板原始数据C1 井径C2 井径C3 井径CAL 井径CAL1 井径CAL2 井径CALI 井径CALS 井径CASI 钙硅比CBL 声波幅度CCL 磁性定位CEMC 水泥图CGR 自然伽马CI 总能谱比CMFF 核磁共振自由流体体积CMRP 核磁共振有效孔隙度CN 补偿中子CNL 补偿中子CO 碳氧比CON1 感应电导率COND 感应电导率CORR 密度校正值D2EC 200兆赫兹介电常数D4EC 47兆赫兹介电常数DAZ 井斜方位DCNT 数据计数DEN 补偿密度DEN_1 岩性密度DEPTH 测量深度DEV 井斜DEVI 井斜DFL 数字聚焦电阻率DIA1 井径DIA2 井径DIA3 井径DIFF 核磁差谱DIP1 地层倾角微电导率曲线1 DIP1_1 极板倾角曲线DIP2 地层倾角微电导率曲线2DIP2_1 极板倾角曲线DIP3 地层倾角微电导率曲线3 DIP3_1 极板倾角曲线DIP4 地层倾角微电导率曲线4 DIP4_1 极板倾角曲线DIP5 极板倾角曲线DIP6 极板倾角曲线DRH 密度校正值DRHO 密度校正值DT 声波时差DT1 下偶极横波时差DT2 上偶极横波时差DT4P 纵横波方式单极纵波时差DT4S 纵横波方式单极横波时差DTL 声波时差DTST 斯通利波时差ECHO 回波串ECHOQM 回波串ETIMD 时间FAMP 泥浆幅度FAR 远探头地层计数率FCC 地层校正FDBI 泥浆探测器增益FDEN 流体密度FGAT 泥浆探测器门限FLOW 流量FPLC 补偿中子FTIM 泥浆传播时间GAZF Z轴加速度数据GG01 屏蔽增益GG02 屏蔽增益GG03 屏蔽增益GG04 屏蔽增益GG05 屏蔽增益GG06 屏蔽增益GR 自然伽马GR2 同位素示踪伽马HAZI 井斜方位HDRS 深感应电阻率HFK 钾HMRS 中感应电阻率HSGR 无铀伽马HTHO 钍HUD 持水率HURA 铀IDPH 深感应电阻率IMPH 中感应电阻率K 钾KCMR 核磁共振渗透率KTH 无铀伽马LCAL 井径LDL 岩性密度LLD 深侧向电阻率LLD3 深三侧向电阻率LLD7 深七侧向电阻率LLHR 高分辨率侧向电阻率LLS 浅侧向电阻率LLS3 浅三侧向电阻率LLS7 浅七侧向电阻率M1R10 高分辨率阵列感应电阻率M1R120 高分辨率阵列感应电阻率M1R20 高分辨率阵列感应电阻率M1R30 高分辨率阵列感应电阻率M1R60 高分辨率阵列感应电阻率M1R90 高分辨率阵列感应电阻率M2R10 高分辨率阵列感应电阻率M2R120 高分辨率阵列感应电阻率M2R20 高分辨率阵列感应电阻率M2R30 高分辨率阵列感应电阻率M2R60 高分辨率阵列感应电阻率M2R90 高分辨率阵列感应电阻率M4R10 高分辨率阵列感应电阻率M4R120 高分辨率阵列感应电阻率M4R20 高分辨率阵列感应电阻率M4R30 高分辨率阵列感应电阻率M4R60 高分辨率阵列感应电阻率M4R90 高分辨率阵列感应电阻率MBVI 核磁共振束缚流体体积MBVM 核磁共振自由流体体积MCBW 核磁共振粘土束缚水ML1 微电位电阻率ML2 微梯度电阻率MPHE 核磁共振有效孔隙度MPHS 核磁共振总孔隙度MPRM 核磁共振渗透率MSFL 微球型聚焦电阻率NCNT 磁北极计数NEAR 近探头地层计数率NGR 中子伽马NPHI 补偿中子P01 第1组分孔隙度P02 第2组分孔隙度P03 第3组分孔隙度P04 第4组分孔隙度P05 第5组分孔隙度P06 第6组分孔隙度P07 第7组分孔隙度P08 第8组分孔隙度P09 第9组分孔隙度P10 第10组分孔隙度P11 第11组分孔隙度P12 第12组分孔隙度P1AZ 1号极板方位P1AZ_1 2号极板方位P1BTN 极板原始数据P2BTN 极板原始数据P2HS 200兆赫兹相位角P3BTN 极板原始数据P4BTN 极板原始数据P4HS 47兆赫兹相位角P5BTN 极板原始数据P6BTN 极板原始数据PAD1 1号极板电阻率曲线PAD2 2号极板电阻率曲线PAD3 3号极板电阻率曲线PAD4 4号极板电阻率曲线PAD5 5号极板电阻率曲线PAD6 6号极板电阻率曲线PADG 极板增益PD6G 屏蔽电压PE 光电吸收截面指数PEF 光电吸收截面指数PEFL 光电吸收截面指数PERM-IND 核磁共振渗透率POTA 钾PPOR 核磁T2谱PPORB 核磁T2谱PPORC 核磁T2谱PR 泊松比PRESSURE 压力QA 加速计质量QB 磁力计质量QRTT 反射波采集质量R04 0.4米电位电阻率R045 0.45米电位电阻率R05 0.5米电位电阻率R1 1米底部梯度电阻率R25 2.5米底部梯度电阻率R4 4米底部梯度电阻率R4AT 200兆赫兹幅度比R4AT_1 47兆赫兹幅度比R4SL 200兆赫兹电阻率R4SL_1 47兆赫兹电阻率R6 6米底部梯度电阻率R8 8米底部梯度电阻率RAD1 井径(极板半径)RAD2 井径(极板半径)RAD3 井径(极板半径)RAD4 井径(极板半径)RAD5 井径(极板半径)RAD6 井径(极板半径)RADS 井径(极板半径)RATI 地层比值RB 相对方位RB_1 相对方位角RBOF 相对方位RD 深侧向电阻率RFOC 八侧向电阻率RHOB 岩性密度RHOM 岩性密度RILD 深感应电阻率RILM 中感应电阻率RLML 微梯度电阻率RM 钻井液电阻率RMLL 微侧向电阻率RMSF 微球型聚焦电阻率RNML 微电位电阻率ROT 相对方位RPRX 邻近侧向电阻率RS 浅侧向电阻率SDBI 特征值增益SFL 球型聚焦电阻率SFLU 球型聚焦电阻率SGAT 采样时间SGR 无铀伽马SICA 硅钙比SIG 井周成像特征值SIGC 俘获截面SIGC2 示踪俘获截面SMOD 横波模量SNL 井壁中子SNUM 特征值数量SP 自然电位SPER 特征值周期T2 核磁T2谱T2-BIN-A 核磁共振区间孔隙度T2-BIN-B 核磁共振区间孔隙度T2-BIN-PR 核磁共振区间孔隙度T2GM T2分布对数平均值T2LM T2分布对数平均值TEMP 井温TH 钍THOR 钍TKRA 钍钾比TPOR 核磁共振总孔隙度TRIG 模式标志TS 横波时差TT1 上发射上接受的传播时间TT2 上发射下接受的传播时间TT3 下发射上接受的传播时间TT4 下发射下接受的传播时间TURA 钍铀比U 铀UKRA 铀钾比URAN 铀VAMP 扇区水泥图VDL 声波变密度VMVM 核磁共振自由流体体积VPVS 纵横波速度比WAV1 第一扇区的波列WAV2 第二扇区的波列WAV3 第三扇区的波列WAV4 第四扇区的波列WAV5 第五扇区的波列WAV6 第六扇区的波列WAVE 变密度图WF 全波列波形ZCORR 密度校正值测井曲线代码一览表常用测井曲线名称测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formationresistivity 冲洗带地层电阻率Ild deep investigate induction log深探测感应测井Ilm medium investigate induction log中探测感应测井Ils shallow investigate induction log浅探测感应测井Rd deep investigate double lateral resistivity log深双侧向电阻率测井Rs shallow investigate double 浅双侧向电阻率测井 lateral resistivity logRMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马常用测井曲线名称测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formation resistivity 冲洗带地层电阻率Ild deep investigate induction log 深探测感应测井Ilm medium investigate induction log 中探测感应测井Ils shallow investigate induction log 浅探测感应测井Rd deep investigate double lateral resistivity log 深双侧向电阻率测井Rs shallow investigate double lateral resistivity log 浅双侧向电阻率测井RMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马5700系列的测井项目及曲线名称Star Imager 微电阻率扫描成像CBIL 井周声波成像MAC 多极阵列声波成像MRIL 核磁共振成像TBRT 薄层电阻率DAC 阵列声波DVRT 数字垂直测井HDIP 六臂倾角MPHI 核磁共振有效孔隙度MBVM 可动流体体积MBVI 束缚流体体积MPERM 核磁共振渗透率Echoes 标准回波数据T2 Dist T2分布数据TPOR 总孔隙度BHTA 声波幅度BHTT 声波返回时间Image DIP 图像的倾角COMP AMP 纵波幅度Shear AMP 横波幅度COMP ATTN 纵波衰减Shear ATTN 横波衰减RADOUTR 井眼的椭圆度Dev 井斜。
尼龙阻燃软管
型号 Item No.
黑色 Black Ral9005
BG-07NB BG-10NB BG-12NB
深灰色 Gray Ral7037
BG-07NG BG-10NG BG-12NG
规格 Sizes
内径 I.D. A
外径 O.D.
B
1/4" 6.5 10.0 5/16" 10.0 13.0
- 12.0 15.8
2" 48.0
9/32" 8.0
-
11.0
- 14.5
- 20.0
54.5 100 11.5 13 14.0 20 20.0 45 25.0 50
190 25M 25 100M 45 100M 75 100M 85 50M
阻
日成系列软管接头使用即可.
tested according to RCCN factory
Sizes
1/4" 5/16"
3/8" 1/2" 3/4" 1" 1 1/4" 2" 9/32"
-
内径 I.D. A
6.5 10.0 12.0 14.3 17.0 23.0 29.0 36.0 48.0 8.0 11.0 14.5 20.0 25.5
外径 O.D.
B
10.0 13.0 15.8 18.5 21.2 28.5 34.5 42.5 54.5 11.5 14.0 20.0 25.0 31.5
静态 弯曲 半径 Stat.r
13 20 35 40 45 55 65 90 100 13 20 45 50 50
单位/Unit:mm
动态 弯曲 半径 Dyn.r
S1000-2 产品简介
40
260.0°C
260.0°C Alpha=210.0µm/(m·°C)
30
尺寸变化 尺寸变化(µm)
20 200.0°C 38.1µm 2.4%
10
120.0°C Alpha=46.5µm/(m·°C)
30.0°C 50.0°C 50 100 150 温度(°C) 200 250 Universal V4.4A TA Instruments
气气 ---/--- / ---/-----/--- / ---/---
校校 020 020
Test Item
Treatment Condition DSC
Unit Celsius Celsius Celsius
SPEC ≥170 -----
Typical Value 185 175 193
Method re.
DK
4 3.5 3 40 42 44 46 48 50 52 54 56 58 60 62 64 66
1GHz
0 40 42 44 46 48 50 52 54 56 58 60 62 64 66
Resin content(%)
Resin content(%)
®
p S1000-2/S1000-2B
®
p S1000-2/S1000-2B
性能介绍( PROPERTIES) 性能介绍(GENERAL PROPERTIES) Laminate Tg (DSC) ≥170℃
DSC /(mW/mg) ↑ 放放 0
-0.050
-0.100
-0.150
-0.200
玻璃化转变: 拐点: 186.81 ℃
-0.250 [1.5] -0.300 [1.2]
常用软件序列号大全
常用软件序列号大全WINDOWS ME 简体中文正式零售版(序列号)S/N: HJPFQ-KXW9C-D7BRJ-JCGB7-Q2DRJWINDOWS ME 正式英文零售版S/N: RBDC9-VTRC8-D7972-J97JY-PRVMGWindows 2000 Server简体中文服务器版(序列号)H6TWQ-TQQM8-HXJYG-D69F7-R84VMWindows 2000 Professional : PQHKR-G4JFW-VTY3P-G4WQ2-88CTW TQ4CV-XPJR3-KPG3Q-HGH74-BMYWTWindows 2000 Server : H6TWQ-TQQM8-HXJYG-D69F7-R84VMEWIN97 S/N: 00100-OEM-0123456-00100PWIN97 S/N: 00100-OEM-0123456-00100CWIN98 S/N: DC688-DET96-5SCN7-E5RLK-XL413EWIN98 S/N: K4HVD-Q9TJ9-6CRX9-C9G68-RQ2D3PWIN98 S/N: VR9TR-74M8W-YPT9C-4VDF4-R7PD8PWIN98 OEM(第二版) S/N: BBH2G-D2VK9-QD4M9-F63XB-43C33PWIN98 2A 2222版S/N: QY7TT-VJ7VG-7QPHY-QXHD3-B838Q MB9HY-M4JGJ-B3RV2-FPH8D-FP8KYWHWGP-XDR8Y-GR9X3-863RP-67J2TWindows98:Upgrade98:G2FGT-6HYRW-X2W2C-RT7HW-RF7WXWindows98:HGBRM-RBK3V-M9FXV-YCXDK-V38J4Windows98 SE:CMGRR-XCBMG-4P8TB-DR9FW-62PFBWindows98(第三版)th OEM 升级程序密码:1Windows98(第三版)th OEM 密码:QY7TT-VJ7VG-7QPHY-QXHD3-B838QWINDOWS ME 简体中文正式零售版(序列号)S/N: HJPFQ-KXW9C-D7BRJ-JCGB7-Q2DRJWINDOWS ME 正式英文零售版S/N: RBDC9-VTRC8-D7972-J97JY-PRVMGWindows 2000 Server简体中文服务器版(序列号)H6TWQ-TQQM8-HXJYG-D69F7-R84VMWindows 2000 Professional : PQHKR-G4JFW-VTY3P-G4WQ2-88CTW TQ4CV-XPJR3-KPG3Q-HGH74-BMYWTWindows 2000 Server : H6TWQ-TQQM8-HXJYG-D69F7-R84VM Windows 2000 Advanced Server: RBDC9-VTRC8-D7972-J97JY-PRVMGwin2000序列号:rbdc9-vtrc8-d7972-j97jy-prvmgWIN2000 PRO: PQHKR-G4JFW-VTY3P-G4WQ2-88CTWwindows NT Server 4.0 序列号: 727-1111111windows NT WorkStation 4.0 序列号: 727-1111111Windows2003简体中文正式零售版(序列号)JB88F-WT2Q3-DPXTT-Y8GHG-7YYQYcky24-q8qrh-x3kmr-c6bcy-t847ywin2003 Enterprise Server: QW32K-48T2T-3D2PJ-DXBWY-C6WRJ win2003 Standard Server: M6RJ9-TBJH3-9DDXM-4VX9Q-K8M8M win2003 Web Server: D42X8-7MWXD-M4B76-MKYP7-CW9FD Win2003 enterprise edition english version cPROduct KEY:QW32K - 48T2T - 3D2PJ - DXBWY - C6WRJ可以Updata,但不可以激活Windows 2003 servr序列号:JK6JC-P7P7H-4HRFC-3XM7P-G33HMJCGMJ-TC669-KCBG7-HB8X2-FXG7M企业版: QW32K-48T2T-3D2PJ-DXBWY-C6WRJ标准版: C4C24-QDY9P-GQJ4F-2DB6G-PFQ9W企业VLK: JB88F-WT2Q3-DPXTT-Y8GHG-7YYQY标准VLK: JB88F-WT2Q3-DPXTT-Y8GHG-7YYQYEnterprise Retail: QW32K-48T2T-3D2PJ-DXBWY-C6WRJStandard Retail..: M6RJ9-TBJH3-9DDXM-4VX9Q-K8M8MAll VOL..........: JB88F-WT2Q3-DPXTT-Y8GHG-7YYQYAll OEM DELL.....: TPPJH-FG9MV-KQPXW-HVHKJ-6G728Windows Server 2003 for Small Business Server 的CD-KEY:BBGC6-TXDG9-J9CDW-J XK3R-GTMMBWindowsXP:简体中文正式零售版DRV9Y-XD3HY-GW4M8-4TJJC-XMT7JDXY82-M7W29-XKG9W-Q2GDM-TM7TMCFVYD-GDP9X-GGY8T-9PQ8Y-6273DVRKYC-RXK3B-H7HW2-B3J9D-TMQGDR9BCP-VF23P-BB6YM-JPYGQ-CT48YHM936-QBMRV-Y2QKP-FV4BG-XX38YJYG8K-HTJDM-GK6JC-RDRYG-J8BBGPWFT4-24BFM-YFX6T-QJJ48-Q9968XKTQX-9J7YK-HRHCM-CW6HW-XV9V6F6DXK-4YM2R-TJKM2-KHRGY-C7DCWB9QXV-QCHR4-CVGR3-4DDKQ-KK7VQQCMGX-P44QJ-872MM-T82M3-4VWDWTB4JQ-PMG2C-32C9J-4FX3P-9FDTGBD9HC-83KR8-DMT9M-69RPQ-CW9FMQ3GHH-PBFB8-GGMWT-KXBPM-HWQVQWD6GB-Y6X67-RKPGJ-W2RH2-WFD7QQDTMY-HT7JG-XMTT8-R9K9H-26Y2BTBKF7-8PCDP-72487-7MV4W-7KTV3HFYQM-3QBBB-WG3QG-XW9HH-7GTMQH7W7J-J8DKC-2WMF8-9JCRQ-BK6VTHG9P2-FRQYD-66FVJ-MTPVQ-QCVW3QYP7J-WQ76Q-R2J8K-2VCPP-VPD88BHX24-8486D-2W99H-VQCXJ-Y6B3MQ48G9-YCJ78-X4QT8-TYXJ2-YDXD8C3BC9-TT4YX-3BMVK-XP7H8-G3QXWRKR78-X3QXT-R39X9-69PJ6-KDGT8WG7J4-KWJP7-WDBKG-X7QG4-FRYBMHG24K-JX984-QFQ4X-BR2XM-2C4H3H6QTC-6YHK2-HX7YT-VD4HP-BBTWJHWT63-P9QBW-XQD88-4CHY9-3BTDMQFJYQ-MT473-K4W7Y-W4KJB-9D2X8FTXBD-MYPY4-WH8CX-QM48P-8BVHBS/N:FCKGW-RHQQ2-YXRKT-8TG6W-2B7Q8Windows XP 专业版: CCC64-69Q48-Y3KWW-8V9GV-TVKRMWindows XP 家庭版: BQJG2-2MJT7-H7F6K-XW98B-4HQRQwindows XP sp2 3KHMJ-DW7BX-77XHM-DFCW3-J4GHWWindows XP Professional序列号:BX6HT-MDJKW-H2J4X-BX67W-TVVFG安装后激活码只需全输"0"韩文版Windows Xp ProFessional序列号Sn:FCKGW-RHQQ2-YXRKT-8TG6W-2B7Q8Windows XP Professional Sp1: CCYFQ-CYK72-HTB3Y-MF37F-DHXQK Windows XP Pro Legend OEM FCDGH-QW3DJ-VBC6C-9BYTX-4GKQJEng Windows XP Pro FCKGW-RHQQ2-YXRKT-8TG6W-2B7Q8红旗: DEE595223-ywbfwzund-HGLZUTLEDRedhat: 4ccf-b908-9969-cd0doffice2000中文版序列号:J2MV9-JYYQ6-JM44K-QMYTH-8RB2WG6G9J-XMD7D-XKCFB-PM8Q2-C7T2MPHOTOSHOP滤镜大全序列号Number:1234567 Code:123HJLJ544PhotoTools3.0 S/N:HCE-300-000-607-233233alphastrip SN:ASP 0000123567 9734EyeCandy4 SN:BFNMMHPENCCIEffects 2.0 name:DASavant Code:12LJPN1GLPphotographics SN:GCI-100-000-653-000000MaskPro v2.0 S/N: MCE-200-111-541-111111Xenofex1.0 S/N:JKGDDBEEKLCHPhotoFrame v1.0 sn: BCE-100-254-840-921951EyeCandy3.0.1 s/n:IIIGEBFHMJNBPluginManager 2.0 sn: KG02508803ICNEElasticReality3.0 SN:40-50712-31241-26627RealPlayer8序列号: 0444-90-4466Winzip8.1 Name: czgllmf Code: 605508C1PVfp60: 111111...Autocad2000 序列号:220-60220732 CDKEY:1ERYS5Protel 99se: 990005336 S/N:Y7ZP-5QQG-ZWSF-K858金山毒霸2001序列号:101100-110000-138180-717709金山毒霸2003序列号: 102400-010246-642302-645569注册表终结者序列号: 用户名 注册码60940847 Windows优化大师序列号: 1D39FEDC-D110CFF4-47A8416D-B239C819 WinDVD5 eMail: *****************Password: ttdownKey: VZ255CZV-8ZBWEM2C-4RH5WYS5-TBPT3JBP2 Card: 5346AltoMP3 Maker: 用户名:Sponge Uk 注册码:2509556074ACDS 3.0: 911913243408102441NERO: 1502-0956-3584-2202-3767-601815067-95541-09043-03130-3690CloneCD 4.2.0.2 Name: crskyCode: 385181001-2-2019125875-1993238403Flash mx序列号: FLW600-09531-57240-83750Flash5.0序列号: FLW500-03143-77238-80660Macromedia Dreamweaver MX 序列号: DWW600-54622-26755-01760 Photoshop6.0序列号: PWW600R7105467-948Photoshop7.0序列号: 1045-1209-6738-4668-7696-2783Adobe Photoshop CS v8.0 安装序列号1045-0502-9715-8471-5218-79251045-1999-8526-0973-1557-29711045-1633-7471-9911-3842-17651045-1423-6436-0168-7941-17391045-1189-6296-3291-6041-10481045-1084-6341-6905-7261-71541045-1380-6674-5614-0950-9671AutoCAD200 序列号:220-60220732 CDKEY:1ERYS5isobuster序列号: ID:UfTIMmUNvcSyMYT0oEOMGRsn:14ADDF48-F9CCCC12-182C0636-0AB6E27F-021305FE-05BB5580 CorelDRAW 10.0: CorelDRAW 10.03DMark2001SE 序列号Name: Tom Solen Serial: 9US0Y-B6H47-C4DYX-FZRKN瑞星2004: KJN7MG-D4UQUK-39DBS0-0P5200 4AK8NP66WA4X胜新人事软件序列号:ID 180363833 SN 3546-1124-1681 永恒家具有限公司2003.10.07UltraEdit v10.10c 简繁中文版Name:Code:C4I5R-X3H2H-I8I4B-D9W1E超级兔子魔法设置序列号v5.88 Name:crsky Code:MSCNC-MSOCW-VIODJ-NWQPD-RRYYI----------------------------------------操作系统注册码WindowsXP可以无限次激活的号码:CXGDD-GP2B2-RKWWD-HG3HY-VDJ7J或者RK7J8-2PGYQ-P47VV-V6PMB-F6XPQWindowsXP 2520 Pro 英文版--60天免激活序列号:RK7J8-2PGYQ-P47VV-V6PMB-F6XPQWindows XP 2505 RC1--序列号:DTWB2-VX8WY-FG8R3-X696T-66Y46Q3R8Y-MP9KD-3M6KB-383YB-7PK9Q 411Y0-URB45-34R3B-310N6-70U51F0R6R-347JU-57IC3-M0V34-11Z16 50M38-0DY53-7UPU5-7H380-M8111WindowXP(windows whistler) Beta2 build 2428--CD Key:RBDC9-VTRC8-D7972-J97JY-PRVMGMicrosoft WindowsNT Server4.0--CDKEY:727-1111111Microsoft WindowsNT workstation-输入任意合适数目的数码后,最后一位从0到9试一遍,最多试十次即可Windows Mellinium(Windows Me)简体中文最终正式版--s/n:B6BYC-6T7C3-4PXRW-2XKWB-GYV33Windows Me简体中文正式版SN: K9KDJ-3XPXY-92WFW-9Q26K-MVRK8Windows2000 Professional 中文版--SN:PQHKR-G4JFW-VTY3P-G4WQ2-88CTWWindows2000 Professional英文正式版--s/n:RBDC9-VTRC8-D7972-J97JY-PRVMGWindows2000 Server 简体中文完全正式版--S/N:XF7DK-7X2WM-2QRCT-Y9R23-4BHDGWindows2000 Server--CD-KEY:H6TWQ-TQQM8-HXJYG-D69F7-R84VMwin2000专业版的序列号 PQHKR-G4JFW-VTY3P-G4WQ2-88CTWWindows 98 SE 标准正式版--s/n: HMTWJ-VPPWP-9BXP8-WD73Y-GGT6M Windows98序列号--K4HVD-Q9TJ9-6CRX9-C9G68-RQ2D3Windows 98第三版-联想OEM升级专版安装密码为:1Windows Power Tools 3.95-Code:JPX785-GT56F-KPL98-RTWQ9常用软件注册码Dreamwaver MX-sn: DWW600-54622-26755-01760Dreamwaver 4.03-sn:DWW400-00470-47289-60450&DWW400-03771-57289-73501Macromedia Dreamweaver 4.0 完全正式版--安装授权号:DWW400-03771-57289-73501Macromedia Dreamweaver UltraDev 4.0-- 安装授权号:UDW400-06066-07241-71420Macromedia FreeHand 9.02-- sn:FHW900-00010-47278-88947Macromedia Freehand 10--SN:FHW100-00654-47258-19356Macromedia Fireworks 4.0完全正式版-- 安装授权号:FWW400-02666-67248-02548Micromedia Flash 6.0-序列号:FLW600-50034-46340-47907Macromedia Flash 5.0最终正式版-- serialFLW500-13547-37838-54321 或者FLW500-03143-77238-80660Premiere 6.0 final--sn:MBF500B7205104-998Premiere 5.1--sn:MXX500R145503-500-448Premiere RT 5.1 for 9x/NT--sn: MBF420U3000205-940Photoshop 7.0-sn: 1045-1209-6738-4668-7696-2783Photoshop 6.1-sn: PWC601R3382269-296PhotoShop v6.01 中文版--PWC601R3382269-296或者PWC601R4999617-923或者PWW600R7105467-948或者PWW550R7162534-100Photoshop 6.0--sn: PWW600R7105467-948或者EXX600B6311279-428 Photoshop 5.0--sn: PWW400R7106337-339Photoshop 4.0--sn: PWW250R3107069-312OFFICE XP 简体中文正式版-序列号:P2KDC-9HMXH-9QFVK-PMQCB-V2XMM Office 2000 简体中文企业版-序列号:J2MV9-JYYQ6-JM44K-QMYTH-8RB2W office 2000 Full-s/n: GC6J3-GTQ62-FP876-94FBR-D3DX8office 2000 Permium-s/n: DT3FT-BFH4M-GYYH8-PG9C3-8K2FJoffice 2000 Porfessional-s/n: XVG79-Q2WK3-JRPMD-9H26V-7TBYToffice 2000 Small Buiness Edition-s/n: TW2RX-PPYX4-MW4FQ-YVYDQ-7CCCQ office 2000 Upgrade-s/n: RMYXR-DJ6FK-M8WBR-FKMB4-JXCCCWPS Office/原WPS 2001正式零售版--sn:KSW026-110000-428123-8076003DS MAX R4 最终零售版软件预安装密码为--cdkey:226-19791979 &key:XLSQBQ3DS MAX 3.1-Serial: 110-12345678 CDKey: S4ED6W Authorization Code: a84983813D Morfit 3D WorldBuilder v3.9--SN:M-2000-MVR-1737 智能陈桥五笔5.03正式版--注册信息码:CCJXQ7X5S智能狂拼II正式版--序列号:350-00161634365653智能狂拼完全正式版--sn:300-812522036449中文之星 2001--SN:310-121964037443 WinZip 8.1 beta Build 4180--Name:x SN:00020000或者Name:cTRLd SN:1D4C036CWinzip v8.0 build3105-注册名:among 注册码:514A0431 或者注册名:wang qiang注册码:c97b0c33 或者注册名:ldr 注册码:77940148或者name:wangds code:529c0641WinZip v7.0 SR-1--注册码:Name:The Krazy Nomad [DEViANT] sn:0BB3629F WinDVD v2.3 DTS ISO--sn:4432GHT7C7R84E0万能五笔2000+通用注册码-用户名:shenwei168 PASSWORD: 2546781324578124(可以是十六个任意数字)万能五笔注册码-用户名:cniti 用户码:3821-076433-0764瑞星杀毒软件千禧世纪版-序列号:I49ISF-RUNLD3-OV3CD1-S30000 或者CRMLLL-518AI4-H20JII-640000瑞星千禧世纪版升级序列号-name:qdj pass:1789882 n:csxk p:2298915n:a p:2671367 n:b p:2570049 n:cq p: 2547100瑞星千禧世纪版ID:TAIHN5YJ TAK4KTNK TAK4N5AV TAPJ5UBU TAQ484SF TA94DIZK TA54HA2E TALIVVR8TA6HM4J1 TAGIYWCQ TAZ4MDK7 TAWI5LL9 TAEIM62X TAP4IED4 TAVHMEUYTAQ4726QTABH9K1Q TAQHPJYV TA6IX48P TAU4ED8B TAU4GVRJ TA74IQ26 TA7IJF9W TAVIFUMZTA1ISG6F TAB417N2 TAHIW2PB TA1IPVRT TA64G64K TA24HC33 TA64FJLNTAS444VNTASHT5MX TAR42DEC TAXIXHBR TAMIKJTQ TAB4NJUS TAZI69Y7 TAV43UWK TAUJM6ATTARIRBK6 TA54HA2E金山毒霸II 2001正式标准版--SN:KAV026-110000-428123-807600金山毒霸 钻石会员版--安装serial:KAV00-69254-10624金山毒霸正式版--serial:KAV00-55610-58546 美萍反黄专家2.26版--软件serial:88888888 注册号:35355美萍反黄专家 V1.1--软件serial:88888888 注册号:35355--------------------------------------------------图形图像注册码Photoshop 7.0-sn:1045-1209-6738-4668-7696-2783Photoshop 6.1-sn: PWC601R3382269-296PhotoShop v6.01 中文版--PWC601R3382269-296或者PWC601R4999617-923或者PWW600R7105467-948或者PWW550R7162534-100Photoshop 6.0--sn: PWW600R7105467-948或者EXX600B6311279-428 Photoshop 5.0--sn: PWW400R7106337-339Photoshop 4.0--sn: PWW250R3107069-312Photo deluxe--sn:HTW200R7100048-493Adobe Illustrator 9.0繁体中文版--sn:ABT800R7100102-625Adobe Illustrator 8.0中文版--sn:ABW800X7102095-685或者sn:EXX500R5900103198-517AcdSee 3.1 build 921 Retail--sn:243478918944730541ACDsee SR1 PowerPack Retail--sn:243478918944730541ACDsee 3.1--sn:132728175249781441Adobe After Effects V5.0-sn:EWE780A7645038-389-588或者SN:EWW471R7080005-040-498Adobe After Effects V4.1--sn:EWW400R4000123-666-922Adobe Acrobat 5.0.1 简体中文版--SN:KWC500R6538415-885Adobe Acrobat 5.0 正式完全版--sn:AEB100R3498245-291或者sn:KWW500R7150122-128Adobe Acorobat full 4.0--sn:AOW301R7136978-298Adobe Acorobat read 1.2--sn:ARM100R3100034-100-397Adobe Acorobat distiller 2.1--sn: DEE100R3001172-010-496Adobe Acorobat capture--sn:WCW100R3101909-171FreeHand 9.02--SN:FHW900-00010-47278-88947FreeHand 10--SN:FHW100-00654-47258-19356我行我素3.0 注册码: 12903-53000-21838287Ulead Photo Express(我形我速) 4.0 Trial-sn:12903-54000-87045955 Ulead Photo Explorer Pro 7.0 iso--sn:11103-67000-00262910网页工具注册码Dreamwaver MX-sn: DWW600-54622-26755-01760Dreamwaver 4.03-sn: DWW400-00470-47289-60450&DWW400-03771-57289-73501 Macromedia Dreamweaver 4.0 完全正式版--安装授权号:DWW400-03771-57289-73501Macromedia Dreamweaver UltraDev 4.0-- 安装授权号:UDW400-06066-07241-71420Macromedia FreeHand 9.02-- sn:FHW900-00010-47278-88947Macromedia Freehand 10--SN:FHW100-00654-47258-19356Macromedia Fireworks 4.0完全正式版-- 安装授权号:FWW400-02666-67248-02548Micromedia Flash 6.0-序列号:FLW600-50034-46340-47907Macromedia Flash 5.0最终正式版-- serialFLW500-13547-37838-54321 或者FLW500-03143-77238-80660Frontpage2000 简体中文正式版--序列号:K3KT9-267PT-4THHF-Q69R3-FRXY6 或者 J2MV9-JYYQ6-JM44K-QMYTH-8RB2W 或者00120804-78E1-11D2-B60F-006097C998E7HTML (Un)Compress 6.1.2--Name:stcsr Code:yJ9A5R0W或者Name:CZY Code:n1KqBy0MDHTML Menu Builder v3.0.x--Name:king_KINK Company:CORECode:E7E81B2ED721025B64D1B47235BA0131FlashGet(网际快车) v0.96广告破解--姓名FLASHGET 注册码:22029EC2M7 FlashGet(网际快车) v0.95广告破解--姓名FLASHGET 注册码:22029EC2M7 FlashGet(网际快车) v0.94广告破解--姓名FLASHGET 注册码:22029EC2M7或者Name:among Code:39065EG6Q5FlashGet(网际快车) v0.93广告破解--姓名FLASHGET 注册码:22029EC2M7LeapFTP 2.71.580--Name:CZY Code:MOD1-MO2D-M3OD-NOPQ32-bit FTP f9.31.1--Name:stcs Code:3033353B353932-bit FTP f9.28.01--Name:FTP Code:30323B373D3B32-bit FTP f9.26.15--Name:FTP Code:30323B373D3B网络工具注册码OICQ图形留言系统3.20--Name:1key Code:50466173 或者 Name:stcsrSn:-1818884247OICQ图形留言系统3.0--Name:伪装者 SN:1232282124 Name:gfh[CCG]SN:1560124846 或者 name:alixcao code:1496111681全新QQ声音 V2.60 SN:blwaa-23456-fffOICQ登录号码清除器 2.21注册名:随便填写注册码:QQ-HideNum-220-HqSx联众密码监听器1.0注册名 fpxfpx 注册码 121501QQ密码记者V5.5Name:flyfox Code:52268746拓易邮件特快 v2001用户名:ufg 信箱:*************注册码:HXv#?eHQ----}aEt^~NZ----KMK2QbSJ魔装网神3.3用户名 CRACK 注册码16616CC---------------视听工具注册码Audio Converter 3.0(0402)特别版--Use Name:chaoruan Company:china Licenses:1 Serial key:08199-04923680536126119550AudioCD MP3 Studio 2000 V2.3--SN:CSN77B-174094802faAltoMP3 Maker 2.2--Name:Free User SN:1LfDE2UKh1F5i9fCCDOK音乐贝贝--Name:洋白菜Comp.: Email:*********************sn:CA9C8419或者Name:copyyour Comp.:CCGE-:*****************:7E868430MP3 CD Maker 1.40多语言版--Name:CZY Code:3543442950天音怒放 3.0--Name: PaulYoung[CCG] Code:613-95285-0865-058天音怒放V2.15--用户名:fpxfpx 注册码:505-0853-45天音怒放V2.14--Name: SN:443-7672-13天音怒放V2.13b--Name: SN:443-7672-13天音怒放V2.13--注册名:世纪动力注册码:999-1962-28 或者注册名:师大附中注册码:974-8525-71 或者注册名:RIRI 注册码:632-0390-88天音怒放2.1修正版--用户名:密码:685-4091-45友情强档 5.82.0999(08.01)--Name:getfox SN:172392-EIVJYH友情强档5.82.999国际版--Name:getfox SN:172392-EIVJYH友情强档5.80.978国际版--Name:getfox SN:172392-EIVJYH友情强档V5.63国际版--Name:wind[CCG] SN:196350-XIEVVQVIRRealPlayer v8.0 Basic Build 6.0.9.584中文版-sn:0444-90-4466 或sn:0094-32-4766RealPlayer V8.0 Basic Build 6.0.9.450中文版-sn:0094-32-4766 或SN:1356-04-4068RealPlay助理1.0.0--name:2000yeah code:0411225518Real 格式文件压缩至尊v1.3 -注册码:TianYusoftware is good音乐贝贝(CDOK)-Name:洋白菜Comp: Email:*********************sn:CA9C8419 或者Name:copyyour Comp:CCG 信箱:*****************:7E868430其它工具注册码Audio Converter 3.0(0402)特别版--Use Name:chaoruan Company:china Licenses:1 Serial key:08199-04923680536126119550AudioCD MP3 Studio 2000 V2.3--SN:CSN77B-174094802faAltoMP3 Maker 2.2--Name:Free User SN:1LfDE2UKh1F5i9fCCDOK音乐贝贝--Name:洋白菜Comp.: Email:*********************sn:CA9C8419或者Name:copyyour Comp.:CCGE-:*****************:7E868430MP3 CD Maker 1.40多语言版--Name:CZY Code:3543442950天音怒放 3.0--Name: PaulYoung[CCG] Code:613-95285-0865-058天音怒放V2.15--用户名:fpxfpx 注册码:505-0853-45天音怒放V2.14--Name: SN:443-7672-13天音怒放V2.13b--Name: SN:443-7672-13天音怒放V2.13--注册名:世纪动力注册码:999-1962-28 或者注册名:师大附中注册码:974-8525-71 或者注册名:RIRI 注册码:632-0390-88天音怒放2.1修正版--用户名:密码:685-4091-45友情强档 5.82.0999(08.01)--Name:getfox SN:172392-EIVJYH友情强档5.82.999国际版--Name:getfox SN:172392-EIVJYH友情强档5.80.978国际版--Name:getfox SN:172392-EIVJYH友情强档V5.63国际版--Name:wind[CCG] SN:196350-XIEVVQVIRRealPlayer v8.0 Basic Build 6.0.9.584中文版-sn:0444-90-4466 或sn:0094-32-4766RealPlayer V8.0 Basic Build 6.0.9.450中文版-sn:0094-32-4766 或SN:1356-04-4068RealPlay助理1.0.0--name:2000yeah code:0411225518Real 格式文件压缩至尊v1.3 -注册码:TianYusoftware is good。
UL1004电动机标准中文版
UL1004电动机标准中文版总则1 范围1.1 本标准所列要求适用于符合其各自要求的装置和设备中所使用的电动机。
1.2 本标准适用于额定功率为5马力(3.7千瓦)及以下、电压为250及以下的交、直流串励、并励、复励和永磁式换向器电动机。
1.3 除了在1.2节中规定的额定为7200伏或以下的电动机要求以外,只包括推斥式换向器电动机。
1.3节于2001年2月7日修订1.4 本标准适用于开启式和封闭式电动机。
1.5 本标准适用于电动机的零件以及由这些零件组成的部件。
1.6 本标准不适用于:a)阻抗保护电动机的热保护器和阻抗要求,应由UL 2111-电动机过热保护标准来评定。
b)其它符合安装在电动机的最终使用设备要求的电动机的保护器;或c)应由UL 984-气密制冷电动机-压缩机标准评定的密封(气密型)电动机-压缩机零件。
1.6节于1997年12月26日修订1.7 本标准不包括于根据NFPA 70国家电气法规规定于危险场所的电动机。
1.8 本标准不包括与最终使用设备应用有关的性能要求,诸如额定电流、在正常或不正常运行时的温升、电动机的保护、内部接线以及绝缘等,这些均在最终使用设备中给以评定。
1.8节于1997年12月26日修订1.9 一产品含有新的或有别于本标准要求的特点、性能、元件、材料或系统,并涉及电振动或人身伤害,就要评估所使用的专用元件,从而使最终产品需要保持的安全程度达到本标准原预期的目的。
一产品的特点、性能、元件、材料或系统与规定的要求或标准的条件相抵触,不能参加判定是否符合该标准。
根据要求,可提出修订要求申请,建议采纳与使用一致的方法,来发展、修订、补充学具标准。
1.9节于2001年2月7日修订2 参考2.1 出现在标准要求中的任何未标明日期的参考应参考最新版本的代号或标准。
2.1节于2001年2月7日修订2A 术语2A.1 本标准的用途,以下解释适用。
2A.1于1999年11月24日增加2A.1.1 芳族聚酰纸—芳族聚酰胺(如尼龙)。
QM300HA-2中文资料
DERATING FACTOR OF F. B. S. O. A.
COLLECTOR CURRENT IC (A)
DERATING FACTOR (%)
DC
80 70 60 50 40 30 20 10 0 0 20 40 60 COLLECTOR DISSIPATION
SECOND BREAKDOWN AREA
Tj=25°C Tj=125°C
Zth (j–c) (°C/ W)
0.05 0.04 0.03 0.02 0.01 0 10 –3 2 3 4 5 710 –2 2 3 4 5 7 10 –1 2 3 4 5 710 0
B
13
21
29
25.5MAX.
LABEL
36MAX.
41.5MAX.
Feb.1999
元器件交易网
MITSUBISHI TRANSISTOR MODULES
QM300HA-2H
HIGH POWER SWITCHING USE
INSULATED TYPE
ABSOLUTE MAXIMUM RATINGS
VCE (V)
COLLECTOR CURRENT IC (A)
BASE CURRENT IB (A)
10 2 7 5 3 2 10 1 7 5 3 2 10 0 7 5 3 2 10 –1 1.8
VCE (sat), VBE (sat) (V)
COMMON EMITTER INPUT CHARACTERISTIC (TYPICAL)
Mounting screw M6 — Mounting torque B terminal screw M4
BX terminal screw M4 — Weight Typical value
RETSCH ZM 100 Ultra Centrifugal Mill 商品说明书
ADVANTAGESs Careful, fast grinding with rotor/screen systems Cassette for simple removal of the ground material and greater sample throughput s Microprocessor-controlled safety and diagnosis system s Push-fit rotor for easy exchange and cleanings Hinged cover with quick-release closures Only one central quick-release closures low-noise designs2-year guaranteeGRINDINGRETSCH Ultra Centrifugal Mills are used for the fast ultra-fine grinding of soft to medium-h ard and fibrous materials. With th e rotor/screen system and the extensive range of accessories, the ZM 100 guarantees reliable analysis results and is ideally suited for both quality control work and research and development.Ease of operation, high sample throughput with s h ort grinding times and t h e careful, analytically appropriate sample preparation are key features of th e ZM 100 Ultra Centrifugal Mill.FEATURESapplication fine grindingfeed stock soft, medium hard, brittle, fibrousfeed size< 10 mmfinal fineness up to 40 µmsample volume max. 900 ml, with cyclone up to 5.000 ml ULTRA CENTRIFUGAL MILL ZM100ULTRA CENTRIFUGAL MILL ZM100The ergonomically designed front panel ensuresoptimum operator control.With the Ultra Centrifugal Mill ZM100 samplethroughputs can be double d. With the use ofcassettes to take the ground material, cleaningof the mill can largely be dispensed with. Withthe use of a number of cassettes and sieves itis possible to empty and clean independently ofthe grinding. A furthe r fe ature is the quick,simple opening and closing of the unit with then e w-styl e hing e d cov e r with quick-r e l e as eclosure. A choice of push-fit rotors and ringsi e v e s in stainl e ss st e e l, WC-coat e d andtitanium guarante e analytically ne utral samplepreparation.Whenever soft to medium-hard substances haveto be ground, the ZM 100 is the answe r. Forexample:1.Ch micals, drugs, spic s, coal, synth ticresins, plastics, leather, pharmaceutical rawand finished products, salts and cellulose2.Powd e r coatings (d e t e rmination of th ethrowing/covering power)3.Soap powders and detergents (tensides acc.to DGF unit process sec. H, 82)4.Animal fe e d and foodstuffs in conne ctionwith nitrogen and protein determination5.S e ctions of plants to inv e stigat e th echlorine and sulphur le ve ls in conne ctionwith environmental protectionThe fe e d mate rial can be introduce d manuallyor via a fe e d unit controlle d as a function ofload (DR 100). Th e ground mat e rial iscollected in a tray or in a paper filter bag via apassage receptacle.For large quantitie s, it is advisable to conne ctthe cyclone with its 5,000ml collection vesseldownstream. With the use of the cyclone or thepape r filte r bag, the mate rial to be ground iscool e d by th e in drawn air str e am anddischarg e d th e r e by mor e quickly from th egrinding chamber.Th e n e w distanc e si e v e s ar e particularlysuitable for the processing of such temperature– sensitive, tough materials as powder coatingsor resins.Temperature-sensitive and soft, elastic, difficult-to- grind materials can also be ground by priorembrittlement with liquid nitrogen.For grinding of non-abrasive sample s withouthe avy me tal contamination, rotor and ring sie-ve s of titanium, a re ce ive r with titanium-niobcoating as we ll as a casse tte cove r of plasticare recommended.ZM 100 StandardZM 100 with DR 100 and paper bag ZM 100 with DR 100 and CycloneZM 100 with DR 100QUICK, SIMPLE, UNIVERSAL AND SAFET he ZM 100 Ultra Centrifugal Mill offers maximum user comfort, performance and safety. The unit cover can be hinged back once the single quick-release closure has been loosened. T he cassette, consisting of a collecting pan and cassette cover, is inserted simply into the mill with the ring sieve. After grinding the cassette can be removed completely with the ring sieve and the ground material. Where a large number of samples are to be ground, it is recommended that a number of cassettes and sieves are obtained. Work can also proceed without the cassette cover with aunit cover insert (see accessories). The push-fit rotor and labyrinth disc can be removed and replaced without tools.Operator safety and operational reliability are guaranteed by the encoded cover interlock and an automatic safety check.The ZM 100 conforms to the CE directives (DIN EN 61010).GRINDING TOOLS AND RING SIEVEShe rotor and screens are to be selected according to the material to be ground, the degree of fineness required and the subsequent analysis.T he selection of the aperture size of the ring sieves depends on the desired final fineness and the feed material. With most materials finenesses of about 80 % smaller than half the aperture size of the sieve used are achieved.The wide range of accessories with rotors, ring sieves and collecting systems in various forms makes the ZM 100 a truly universal grinding mill.Material Composition approx.stainless steel 77.3% Fe, 18.0% Cr, 2.5% Ni WC coating (rotor)50.0% WC, 17.0% Cr, 20.5% Ni WC coating (sieve)88.0% WC, 12.0% Cr Titanium99.4% TiMATERIAL ANALYSES FOR ROTORS AND RING SIEVESRotorArea of use6-tooth rotor coarse, bulky, fibrous material such as animal feed pellets, hay and straw 12-tooth rotor medium-coarse material such as wheat, oats, maize and tablets 24-tooth rotorfine materials such as chemicals, coal and sugarwear resistant coated hard materials such as minerals with hardnesses up to 4 acc. to Mohs Titanium rotor Heavy-metal-free grinding of non-abrasive materialsPin insertfine grinding and homogenisation of oily and greasy productsSELECTION AID - ROTORSFEATURES OF THE ZM 1001.Hinged removable cover2.Cassette with inserted ring sieve3.Quick-release closure for cover4.Safety interlock for cover5.Proximity switch (safety check)6.Funnel with splashback protection7.Plate for operation without cassette cover 8.Push-fit rotor 9.Ring sieve 10. Collecting pan12541098763REFERENCESRETSCH offers a comprehensive programme of equipment for sample preparation of solids.Please ask for information on our crushers,mills, sample dividers, sieving machines, optical particle sizers, feeders, mixers, cleaning and drying devices. All documents are sent free of charge and without obligation.RETSCH GmbH & Co. KGRheinische Straße 36 · D-42781 Haan POB 15 54 · D-42759 HaanTel.: +49 (0) 2129 / 5561-0Fax.: +49 (0) 2129 / 8702Internet:http://www.retsch.de E-Mail:**************Technical modifications reserved99.822.0002/EMade in Germany 01/99ZM 100 MECHANICSGrinding takes place in the Ultra Centrifugal Mill by the impact and shearing action between the rotor and the fixed ring sieve. The feed material passes through the funnel onto the rotor. With the centrifugal acceleration it is hurled outwards with great energy and is precrushed on the wedge-shaped rotor teeth before being finely ground between the rotor and the screen. The two-stage grinding ensures careful but fast treatment. The feed material only remains for a very short time in the grinding chamber. As soon as it is finer than the hole width of the sieve used, it is collected in the collecting vessel enclosing the grinding chamber or in the downstream cyclone or bag. The rotor is driven by a powerful and robust 600-watt motor, the speed range to be selected with 14,000 or 18,000 rpm. The high speed in combination with the large rotor diameter result in a circumferential speed of up to 93 m/sec, ensuring a particularly careful,fast grinding process.An electronic brake will stop the motor within seconds after disconnection of the unit.WEIGHTS AND MEASURESW x H x D 400 x 460 x 450 mm Weightappr. 25 kgULTRA CENTRIFUGAL MILL ZM 100Article-No.Type ZM 100, 220 - 240 V, 50/60 Hz 20.822.0001Type ZM 100, 110 - 115 V, 50/60 Hz20.822.0002Push-fit rotorsArticle-No.Push-fit rotor 6 tooth 12 tooth 24 tooth stainless steel 02.608.004002.608.004102.608.0042stainless steel, with wear resistant coating 02.608.004302.608.004402.608.0045Titanium –02.608.0047–Ring sievesArticle-No.Conidur holesRound holesAperture size (mm)0,080,120,200,250,500,751,001,502,003,004,005,006,00stainless steelArticle-No.: 02.647...0026002700280029003000310032003300340035003600370038stainless steel, with strengthened rimArticle-No.: 03.647...0193019401950196019701760177017801980189019001910192stainless steel, with wear resistant coating Article-No.: 03.647...––00540055005600570058005900600061–––stainless steel, with strengthened rim, with wear resistant coating Article-No.: 03.647...––01990200020102020203020402050206–––Distance sieves of stainless steelArticle-No.: 03.647...01820183020701840185018601880187–––––Titanium,with strengthened rimArticle-No.: 01.647...0212010301040105010601070108–––0123––Special accessoriesArticle-No.Cyclone with passage receptacle and holder22.935.0003Holder for paper filter bags with passage receptacle and paper filter bags 22.261.0002Configuration kit for pin mill22.786.0014Insert for cover for use without Cassette cover 22.150.0001Cassette cover, plastic03.107.0305Cassette receiver, coated with titanium-niob03.010.0035Vibratory feeder Type DR 100/40 for 220 - 240 V, 50 Hz 70.937.0032Vibratory feeder Type DR 100/40 for 110 - 115 V, 60 Hz 70.937.0035Stand for Type DR 100/40 on ZM 10022.742.0010Replacement partsArticle-No.Cassette, complete (cover, bottom, seal)22.355.0001Cassette bottom03.010.0031。
各种软件序列号 激活
win2000 Professional PQHKR-G4JFW-VTY3P-G4WQ2-88CTW
WinMe HJPFQ-KXW9C-D7BRJ-JCGB7-Q2DRJ
Windows 98 SE 标准正式版--s/n: HMTWJ-VPPWP-9BXP8-WD73Y-GGT6M
木马终结者V 2.1 姓名:ttian 注册码:416709
黄金内存 ID:6215-360606-10069 ID:8843-150613-13458
虚拟光驱(Virtual Drive) Personal V8.0 零售版 多国语言 Name:arong S/N:VDP80001503905207322
金山毒霸6最新版(全功能版) 序列号106500-010802-439041-996697 激活码: igiarpe2
序列号106500-010802-366732-206489 激活码:h448wacy
安全之星 XP 正式零售版(7.32M) SN:CHR-SSV456-9985303DSK-3
Windows 98 WHWGP-XDR8Y-GR9X3-863RP-67J2T或K4HVD-Q9TJ9-6CRX9-C9G68-RQ2D3
常用软件序列号
OfficeXP简体中文正式零售版 FCKGW-RHQQ2-YXRKT-8TG6W-2B7Q8
Office2000 k3kt9-267pt-4thhf-q69r3-frxy6
ACDSee7.0 序列号:4SXDDK-LJ4HR-5ML6MF-7RC8FT3
42XD5K-DBXQ6-L8JZ6D-HBVFT95
化妆品用原料INCI中文名称大全
化妆品用原料INCI中文名称大全序号现用名称INCI中文名称INCI英文名称1 丙二醇丙二醇PROPANEDIOI2 1831 十八烷基三甲基氯化铵STEARTRIMONIUM CHLORIDE3 IPP 棕榈酸异丙酯ISOPROPYL PALMITATE4 IPM 肉豆蔻酸异丙酯ISOPROPYL MYRISTA TE5 甘油甘油GL YCERIN6 PEG—400 聚乙二醇400 PEG—87 霍霍巴油霍霍巴油BUXUSCHINENSIS8 CM040<DC345>环甲基硅氧烷YCLOME9 单甘酯单硬脂酸甘油酯GL YCERYL STEARA TE10 318 三辛酸/癸酸甘油酯CAPRYLIC/CAPRIC TRIGYCERIDE11 BS—12 十二烷基二甲基甜菜碱LAURYL BETAINE12 汉生胶汉生胶XANTHAN GUM13 HPMC 羟丙基甲基纤维素14 司盘—60 单硬脂酸失水山梨醇酯SORBITAN STEARA TE15 1,3—丁二醇1,3—丁二醇BUTYLENE GL YCOL16 牛油树脂牛油树脂BUTYROSPERMUM PARKII17 甲酯对羟基苯甲酸甲酯METHYLPARABEN18 乙酯对羟基苯甲酸乙酯PROPYIPARABEN19 丙酯对羟基苯甲酸丙酯ETHYIPARABEN20 丁酯对羟基苯甲酸丁酯BUTYLPARABEN21 凡士林凡士林PETROLATUM22 白油白油MINERAL OIL23 DC1401<CM1000>二甲基硅氧烷DIMETHICONE24 氢氧化钾(KOH) 氢氧化钾(KOH) POTASSIUM HYDROXIDE 序号现用名称INCI中文名称INCI英文名称25 C12酸月桂酸LAURIC ACID26 C14酸棕榈酸PALMITIC ACID27 C16酸肉豆蔻酸MYRISI ACID28 C18酸硬脂酸STEARIC ACID29 珠光片(剂)单硬脂酸乙二醇酯GL YCOL STEARA TE30 羊毛脂羊毛脂LANOLIN31 钛白粉二氧化钛TITANIYM DIOXIDE32 尿囊素尿囊素ALLABNTOIN33 K12 十二烷基硫酸钠SODUYM LAURYLSUL FATE34 角鲨烷角鲨烷SQUALANE35 557 对甲氧基肉桂酸辛酯OCTYL METHOXYCINNANNATE36 567 苯酮三BENZOPHENONE—337 蜂蜡蜂蜡BEESW AS38 透明质酸透明质酸HY ALURONIC ACID39 氮酮氮酮AZONE40 TW—20 聚氧乙烯(20)失水山梨醇酯POL YSORBATE—2041 TW—80 单油酸聚氧乙烯(20)失水山梨醇酯POL YSORBATE—8042 盐面氯化钠SODIUMCHLORIDE43 BHT 2,6—二叔丁基对甲酚BHT44 硼砂硼砂SODIUMBORA TE45 苯甲酸钠苯甲酸钠SODIUMBENZOATE46 亚硫酸氢钠亚硫酸氢钠SODIUMBISULFITE47 EDTA—2Na 乙二胺四乙酸—二钠DISODIUM EDTA48 薄荷薄荷MENTHOL序号现用名称INCI中文名称INCI英文名称49 C16-18醇十六-十八混合醇CETEARYL ACCOHOL50 三乙醇胺三乙醇胺TRIETHANOLAMINE51 人参皂甙人参皂甙GINSENOSIDE52 凯松CG 异噻唑啉酮METHYL CHLOROISO THIAZOLLNONE53 弹性蛋白弹性蛋白54 AESA 月桂醇聚醚硫酸酯铵55 K12A 十二烷基硫酸铵56 芦芭蕉油聚甲基丙烯酸甲酯,丙二醇57 6501(COD) 椰油酰胺EDA COCAMIDE DEA58 1831 牛脂基三甲基氯化铵TALLOWTRIMONIUM CHLORIDE59 6057E 氨瑞聚二甲基硅氧烷/西曲氯胺/十三烷醇聚醚-10 AMODIMETHICONE(AND)CETRIMONIUMCHLORIDE(AND)TRIDECETH-1060 硅油350 聚二甲基硅氧烷DIMETHICONE61 A VC 丙烯酰二甲基牛磺酸铵/VP共聚物AMMONIUM ACRYLOYLDIMETHYLTAURA TE/VPCOPOL YMER62 OCT63 PDM—35064 APG2000 癸基葡糖苷DECYL GLUCOSIDE65 MAP 月桂醇硫酸酯LAURYL PHOSPHATE66 A22 丙烯酸(酯)类/硬脂醇聚醚-20甲基丙烯酸共聚物ACRYLATES/STEARETH-20 METHACRYLATECOPOL YMER67 DMDMHP DMDM乙内酰脲DMDM HYDANTOIN68 AES 月桂醇聚醚硫酸酯钠SODIUM LAURETH SULFATE69 QP5200(HEC) 乙基纤维素HYDROXYETHYLCELLULOSE序号现用名称INCI中文名称INCI英文名称70 ZPT 吡啶硫酮锌ZINC PYRITHIONE71 卡波940 卡波姆CARBOMER72 卡波941 卡波姆CARBOMER73 PLUS 双(羟甲基)咪唑烷基脲和碘丙炔醇丁基氨甲酸酯和丙二醇DIAZOLIDNYL UREA ANDOIOPROPYNYL BUTYLCARBAMATE(AND)PROPYLENE GL YCOL74 JR-125 阳离子纤维素醚POL YQUA TERNIUM—1075 S—305 聚丙烯酰胺/C13—14异构石蜡/月桂醇聚醚—7 POLYACRYLAMIDE(AND)C13—14 ISOPARPFFIN(AND)LAURETH—776 SCI—65 椰油酰羟乙磺酸酯钠SODIYM COCOYL ISETHIONA TE77 CMEA 椰油酰胺MEA COCAMIDE MEA78 瓜耳胶瓜耳胶羟丙基三甲基氯化铵GUAR HYDROXYPROPYLTRIMONIUMCHLORIDE79 1000NI 鲸蜡硬脂醇和鲸蜡硬脂醇聚醚—20 CETEARTL ALCOHOL(AND)CETEARETH—2080 QM PVM/MA癸二烯交联聚合物PVM/MA DECADIENE CROSSPOL YMER81 E(P)165 甘油硬脂酸酯/PEG—100硬酸酯GL YCERYL STEATATE(AND)PEG—100STEARA TE82 DC—193 PEG—12聚二甲基硅氧烷PEG—12 DIMETHICONE83 TT 四—(二丁基羟基氢化肉桂酸)季戊四醇酯TETRADIBUTYL PENTAERITHRITYLHYDROXYHYDROCIMNAMATE84 CAB 椰油酰胺丙基甜菜碱COCAMIDOPROPYL BETAINE85 GM—2002硅油聚二甲基硅氧烷聚二甲基硅烷醇C12烷基磺酸铵86 QE—22 油醇聚氧乙烯醚—2287 去死皮素十六烷基三甲基氯化铵瓜尔胶88 A—300 鲸蜡醇聚氧乙烯醚—29序号现用名称INCI中文名称INCI英文名称89 B—30 月桂基聚氧乙烯醚—490 丝蛋白柔顺剂水解丝蛋白91 638 聚乙二醇6000硬脂酸酯92 氨基酸保湿剂三甲基甘氨酸93 甲壳素水解甲壳素94 三聚磷酸钠三聚磷酸五钠95 A—25 鲸蜡醇聚氧乙烯醚—2596 A—6 鲸蜡醇,鲸蜡醇聚氧乙烯醚—697 金缕梅金缕梅提取物98 K—30 聚乙烯吡咯烷酮99 卡波934 聚丙烯酸100 APG—1200 C19—C12烷基葡萄糖苷101 熊果苷熊果苷102 SF—1 聚丙烯酸103 DP—300 三氯新104 HRE—40 氢化蓖麻油聚氧乙烯105 卵磷脂卵磷脂106 咖啡固硅烷醇咖啡固,二甲基硅氧烷醇107 DPHP 二棕榈酰羟基脯氨酸108 OCT 1—羟基—2—异辛基吡啶酮109 HR—S 鲸蜡基磷酸酯钠(钾)盐110 桑普G 二羟甲基二甲基乙内酰脲111 檀香檀香油112 玫瑰玫瑰油113 胡萝卜籽油胡萝卜籽油114 薰衣草薰衣草油115 肉桂肉桂116 沙棘油沙棘油117 橄榄油橄榄油118 亮兰60 食用亮兰ACID BLUE9/CI42090119 日落黄食用桔黄SUNSET YELLOW/CI15985 120 柠檬黄食用柠檬黄ACID YELLOW23/CI19140 121 胭脂红食用胭脂红ACIC RED18/CI16255122 HE 椰油酸甘油酯123 TW-60 单硬脂酸聚氧乙烯(20)失水山梨醇酯POL YSORBATE60124 柠檬酸柠檬酸CITRIC ACID125 聚异丁烯2800 聚异丁烯2800126 尿素尿素UREA127 P135 PEG—30二聚羟基硬脂酸酯128 七水硫酸镁七水硫酸镁129 桑普HG13 硬脂酸镁硬脂酸镁131 桑普K15 二甲基异噻唑啉酮132 PCA—Na2133 SB—45134135136137。
测井曲线经常使用英文名称
测井曲线经常使用英文等经常使用测井曲线名称中英文对照第一道要紧为反映岩性的测井曲线道,包括:自然电位测井曲线――曲线符号为SP、记录单位mv;自然伽马测井曲线――曲线符号为GR、记录单位API;井径测井曲线――曲线符号为CAL,记录单位in或cm;岩性密度测井曲线(光电吸收界面指数)――曲线符号为PE;第二道是深度道;通常的深度比例尺为1:200 或1:500第三道是反映含油性的测井曲线道,包括深中浅三条电阻率测井曲线,分别是:深侧向测井曲线――曲线符号为LLD、记录单位Ωm;浅侧向测井曲线――曲线符号为LLS、记录单位Ωm;微球形聚焦测井曲线――曲线符号为MSFL、记录单位Ωm;电阻率测井曲线通常为对数刻度。
第四道为反映孔隙度的测井曲线道,包括:密度测井曲线――曲线符号为DEN或RHOB,记录单位g/cm3;中子测井曲线――曲线符号为CNL或PHIN,记录单位%,有时为v/v。
声波测井曲线――曲线符号为AC或DT,记录单位us/ft,有时为us/m。
中子和密度测井曲线的刻度的特点是保证在含水砂岩层上两条曲线重迭,在含气层上,密度孔隙度大于中子孔隙度,在泥岩层上,中子孔隙度大于密度孔隙度;第五道是反映粘土矿物类型的测井曲线道,包括自然伽马能谱测井中的三条曲线:放射性钍测井曲线――曲线符号为Th或THOR,记录单位是ppm;放射性铀测井曲线――曲线符号为U或URAN,记录单位ppm;放射性钾测井曲线――曲线符号为K或POTA,记录单位%,有时为v/v。
测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formation resistivity 冲洗带地层电阻率Ild deep investigate induction log 深探测感应测井Ilm medium investigate induction log 中探测感应测井Ils shallow investigate induction log 浅探测感应测井Rd deep investigate double lateral resistivity log 深双侧向电阻率测井Rs shallow investigate double lateral resistivity log 浅双侧向电阻率测井RMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马--------------------------------------------------- GRSL—能谱自然伽马POR 孔隙度 NEWSANDPORW 含水孔隙度 NEWSANDPORF 冲洗带含水孔隙度 NEWSANDPORT 总孔隙度 NEWSANDPORX 流体孔隙度 NEWSANDPORH 油气重量 NEWSANDBULK 出砂指数 NEWSANDPERM 渗透率 NEWSANDSW 含水饱和度 NEWSANDSH 泥质含量 NEWSANDCALO 井径差值 NEWSANDCL 粘土含量 NEWSANDDHY 残余烃密度 NEWSANDSXO 冲洗带含水饱和度 NEWSANDDA 第一判别向量的判别函数 NEWSANDDB 第二判别向量的判别函数 NEWSANDDAB 综合判别函数 NEWSANDCI 煤层标志 NEWSANDCARB 煤的含量 NEWSANDTEMP 地层温度 NEWSANDQ 评价泥质砂岩油气层产能的参数 NEWSAND PI 评价泥质砂岩油气层产能的参数 NEWSAND SH 泥质体积 CLASSSW 总含水饱和度 CLASSPOR 有效孔隙度 CLASSPORG 气指数 CLASSCHR 阳离子交换能力与含氢量的比值 CLASS CL 粘土体积 CLASSPORW 含水孔隙度 CLASSPORF 冲洗带饱含泥浆孔隙度 CLASSCALC 井径差值 CLASSDHYC 烃密度 CLASSPERM 绝对渗透率 CLASSPIH 油气有效渗透率 CLASSPIW 水的有效渗透率 CLASSCLD 分散粘土体积 CLASSCLL 层状粘土体积 CLASSCLS 结构粘土体积 CLASSEPOR 有效孔隙度 CLASSESW 有效含水饱和度 CLASSTPI 钍钾乘积指数 CLASSPOTV 100%粘土中钾的体积 CLASSCEC 阳离子交换能力 CLASSQV 阳离子交换容量 CLASSBW 粘土中的束缚水含量 CLASSUPOR 总孔隙度,UPOR=EPOR+BW CLASSHI 干粘土骨架的含氢指数 CLASSBWCL 粘土束缚水含量 CLASSTMON 蒙脱石含量 CLASSTILL 伊利石含量 CLASSTCHK 绿泥石和高岭石含量 CLASSVSH 泥质体积 CLASSVSW 总含水饱和度 CLASSVPOR 有效孔隙度 CLASSVPOG 气指数 CLASSVCHR 阳离子交换能力与含氢量的比值 CLASS VCL 粘土体积 CLASSVPOW 含水孔隙度 CLASSVPOF 冲洗带饱含泥浆孔隙度 CLASSVCAC 井径差值 CLASSVDHY 烃密度 CLASSVPEM 绝对渗透率 CLASSVPIH 油气有效渗透率 CLASSVCLD 分散粘土体积 CLASSVCLL 层状粘土体积 CLASSVCLS 结构粘土体积 CLASSVEPO 有效孔隙度 CLASSVESW 有效含水饱和度 CLASS VTPI 钍钾乘积指数 CLASSVPOV 100%粘土中钾的体积 CLASS VCEC 阳离子交换能力 CLASSVQV 阳离子交换容量 CLASSVBW 粘土中的束缚水含量 CLASS VEPR 含水有效孔隙度 CLASS VUPO 总孔隙度 CLASSVHI 干粘土骨架的含氢指数 CLASS VBWC 粘土束缚水含量 CLASS VTMO 蒙脱石含量 CLASSVTIL 伊利石含量 CLASSVTCH 绿泥石和高岭石含量 CLASS QW 井筒水流量 PLIQT 井筒总流量 PLISK 射孔井段 PLIPQW 单层产水量 PLIPQT 单层产液量 PLIWEQ 相对吸水量 ZRPMPEQ 相对吸水强度 ZRPM POR 孔隙度 PRCOPORW 含水孔隙度 PRCO PORF 冲洗带含水孔隙度 PRCO PORT 总孔隙度 PRCOPORX 流体孔隙度 PRCO PORH 油气重量 PRCOBULK 出砂指数 PRCOHF 累计烃米数 PRCOPF 累计孔隙米数 PRCO PERM 渗透率 PRCOSW 含水饱和度 PRCOSH 泥质含量 PRCOCALO 井径差值 PRCOCL 粘土含量 PRCODHY 残余烃密度 PRCOSXO 冲洗带含水饱和度 PRCOSWIR 束缚水饱和度 PRCOPERW 水的有效渗透率 PRCOPERO 油的有效渗透率 PRCOKRW 水的相对渗透率 PRCOKRO 油的相对渗透率 PRCOFW 产水率 PRCOSHSI 泥质与粉砂含量 PRCOSXOF 199*SXO PRCOSWCO 含水饱和度 PRCOWCI 产水率 PRCOWOR 水油比 PRCOCCCO 经过PORT校正后的C/O值 PRCO CCSC 经过PORT校正后的SI/CA值 PRCO CCCS 经过PORT校正后的CA/SI值 PRCO DCO 油水层C/O差值 PRCOXIWA 水线视截距 PRCOCOWA 视水线值 PRCOCONM 视油线值 PRCOCPRW 产水率(C/O计算) PRCO COAL 煤层 CRAOTHR 重矿物的百分比含量 CRA SALT 盐岩的百分比含量 CRA SAND 砂岩的百分比含量 CRA LIME 石灰岩的百分比含量 CRA DOLM 白云岩的百分比含量 CRA ANHY 硬石膏的百分比含量 CRA ANDE 安山岩的百分比含量 CRA BASD 中性侵入岩百分比含量 CRA DIAB 辉长岩的百分比含量 CRA CONG 角砾岩的百分比含量 CRA TUFF 凝灰岩的百分比含量 CRA GRAV 中砾岩的百分比含量 CRA BASA 玄武岩的百分比含量 CRA常用测井曲线名称(转自博客石油)A1R1 T1R1声波幅度A1R2 T1R2声波幅度A2R1 T2R1声波幅度A2R2 T2R2声波幅度AAC 声波附加值AAVG 第一扇区平均值AC 声波时差AF10 阵列感应电阻率AF20 阵列感应电阻率AF30 阵列感应电阻率AF60 阵列感应电阻率AF90 阵列感应电阻率AFRT 阵列感应电阻率AFRX 阵列感应电阻率AIMP 声阻抗AIPD 密度孔隙度AIPN 中子孔隙度AMAV 声幅AMAX 最大声幅AMIN 最小声幅AMP1 第一扇区的声幅值AMP2 第二扇区的声幅值AMP3 第三扇区的声幅值AMP4 第四扇区的声幅值AMP5 第五扇区的声幅值AMP6 第六扇区的声幅值AMVG 平均声幅AO10 阵列感应电阻率AO20 阵列感应电阻率AO30 阵列感应电阻率AO60 阵列感应电阻率AO90 阵列感应电阻率AOFF 截止值AORT 阵列感应电阻率AORX 阵列感应电阻率APLC 补偿中子AR10 方位电阻率AR11 方位电阻率AR12 方位电阻率ARO1 方位电阻率ARO2 方位电阻率ARO3 方位电阻率ARO4 方位电阻率ARO5 方位电阻率ARO6 方位电阻率ARO7 方位电阻率ARO8 方位电阻率ARO9 方位电阻率AT10 阵列感应电阻率AT20 阵列感应电阻率AT30 阵列感应电阻率AT60 阵列感应电阻率AT90 阵列感应电阻率ATAV 平均衰减率ATC1 声波衰减率ATC2 声波衰减率ATC3 声波衰减率ATC4 声波衰减率ATC5 声波衰减率ATC6 声波衰减率ATMN 最小衰减率ATRT 阵列感应电阻率ATRX 阵列感应电阻率AZ 1号极板方位AZ1 1号极板方位AZI 1号极板方位AZIM 井斜方位BGF 远探头背景计数率BGN 近探头背景计数率BHTA 声波传播时间数据BHTT 声波幅度数据BLKC 块数BS 钻头直径BTNS 极板原始数据C1 井径C2 井径C3 井径CAL 井径CAL1 井径CAL2 井径CALI 井径CALS 井径CASI 钙硅比CBL 声波幅度CCL 磁性定位CEMC 水泥图CGR 自然伽马CI 总能谱比CMFF 核磁共振自由流体体积CMRP 核磁共振有效孔隙度CN 补偿中子CNL 补偿中子CO 碳氧比CON1 感应电导率COND 感应电导率CORR 密度校正值D2EC 200兆赫兹介电常数D4EC 47兆赫兹介电常数DAZ 井斜方位DCNT 数据计数DEN 补偿密度DEN_1 岩性密度DEPTH 测量深度DEV 井斜DEVI 井斜DFL 数字聚焦电阻率DIA1 井径DIA2 井径DIA3 井径DIFF 核磁差谱DIP1 地层倾角微电导率曲线1 DIP1_1 极板倾角曲线DIP2 地层倾角微电导率曲线2 DIP2_1 极板倾角曲线DIP3 地层倾角微电导率曲线3 DIP3_1 极板倾角曲线DIP4 地层倾角微电导率曲线4 DIP4_1 极板倾角曲线DIP5 极板倾角曲线DIP6 极板倾角曲线DRH 密度校正值DRHO 密度校正值DT 声波时差DT1 下偶极横波时差DT2 上偶极横波时差DT4P 纵横波方式单极纵波时差DT4S 纵横波方式单极横波时差DTL 声波时差DTST 斯通利波时差ECHO 回波串ECHOQM 回波串ETIMD 时间FAMP 泥浆幅度FAR 远探头地层计数率FCC 地层校正FDBI 泥浆探测器增益FDEN 流体密度FGAT 泥浆探测器门限FLOW 流量FPLC 补偿中子FTIM 泥浆传播时间GAZF Z轴加速度数据GG01 屏蔽增益GG02 屏蔽增益GG03 屏蔽增益GG04 屏蔽增益GG05 屏蔽增益GG06 屏蔽增益GR 自然伽马GR2 同位素示踪伽马HAZI 井斜方位HDRS 深感应电阻率HFK 钾HMRS 中感应电阻率HSGR 无铀伽马HTHO 钍HUD 持水率HURA 铀IDPH 深感应电阻率IMPH 中感应电阻率K 钾KCMR 核磁共振渗透率KTH 无铀伽马LCAL 井径LDL 岩性密度LLD 深侧向电阻率LLD3 深三侧向电阻率LLD7 深七侧向电阻率LLHR 高分辨率侧向电阻率LLS 浅侧向电阻率LLS3 浅三侧向电阻率LLS7 浅七侧向电阻率M1R10 高分辨率阵列感应电阻率M1R120 高分辨率阵列感应电阻率M1R20 高分辨率阵列感应电阻率M1R30 高分辨率阵列感应电阻率M1R60 高分辨率阵列感应电阻率M1R90 高分辨率阵列感应电阻率M2R10 高分辨率阵列感应电阻率M2R120 高分辨率阵列感应电阻率M2R20 高分辨率阵列感应电阻率M2R30 高分辨率阵列感应电阻率M2R60 高分辨率阵列感应电阻率M2R90 高分辨率阵列感应电阻率M4R10 高分辨率阵列感应电阻率M4R120 高分辨率阵列感应电阻率M4R20 高分辨率阵列感应电阻率M4R30 高分辨率阵列感应电阻率M4R60 高分辨率阵列感应电阻率M4R90 高分辨率阵列感应电阻率MBVI 核磁共振束缚流体体积MBVM 核磁共振自由流体体积MCBW 核磁共振粘土束缚水ML1 微电位电阻率ML2 微梯度电阻率MPHE 核磁共振有效孔隙度MPHS 核磁共振总孔隙度MPRM 核磁共振渗透率MSFL 微球型聚焦电阻率NCNT 磁北极计数NEAR 近探头地层计数率NGR 中子伽马NPHI 补偿中子P01 第1组分孔隙度P02 第2组分孔隙度P03 第3组分孔隙度P04 第4组分孔隙度P05 第5组分孔隙度P06 第6组分孔隙度P07 第7组分孔隙度P08 第8组分孔隙度P09 第9组分孔隙度P10 第10组分孔隙度P11 第11组分孔隙度P12 第12组分孔隙度P1AZ 1号极板方位P1AZ_1 2号极板方位P1BTN 极板原始数据P2BTN 极板原始数据P2HS 200兆赫兹相位角P3BTN 极板原始数据P4BTN 极板原始数据P4HS 47兆赫兹相位角P5BTN 极板原始数据P6BTN 极板原始数据PAD1 1号极板电阻率曲线PAD2 2号极板电阻率曲线PAD3 3号极板电阻率曲线PAD4 4号极板电阻率曲线PAD5 5号极板电阻率曲线PAD6 6号极板电阻率曲线PADG 极板增益PD6G 屏蔽电压PE 光电吸收截面指数PEF 光电吸收截面指数PEFL 光电吸收截面指数PERM-IND 核磁共振渗透率POTA 钾PPOR 核磁T2谱PPORB 核磁T2谱PPORC 核磁T2谱PR 泊松比PRESSURE 压力QA 加速计质量QB 磁力计质量QRTT 反射波采集质量R04 米电位电阻率R045 米电位电阻率R05 米电位电阻率R1 1米底部梯度电阻率R25 米底部梯度电阻率R4 4米底部梯度电阻率R4AT 200兆赫兹幅度比R4AT_1 47兆赫兹幅度比R4SL 200兆赫兹电阻率R4SL_1 47兆赫兹电阻率R6 6米底部梯度电阻率R8 8米底部梯度电阻率RAD1 井径(极板半径)RAD2 井径(极板半径)RAD3 井径(极板半径)RAD4 井径(极板半径)RAD5 井径(极板半径)RAD6 井径(极板半径)RADS 井径(极板半径)RATI 地层比值RB 相对方位RB_1 相对方位角RBOF 相对方位RD 深侧向电阻率RFOC 八侧向电阻率RHOB 岩性密度RHOM 岩性密度RILD 深感应电阻率RILM 中感应电阻率RLML 微梯度电阻率RM 钻井液电阻率RMLL 微侧向电阻率RMSF 微球型聚焦电阻率RNML 微电位电阻率ROT 相对方位RPRX 邻近侧向电阻率RS 浅侧向电阻率SDBI 特征值增益SFL 球型聚焦电阻率SFLU 球型聚焦电阻率SGAT 采样时间SGR 无铀伽马SICA 硅钙比SIG 井周成像特征值SIGC 俘获截面SIGC2 示踪俘获截面SMOD 横波模量SNL 井壁中子SNUM 特征值数量SP 自然电位SPER 特征值周期T2 核磁T2谱T2-BIN-A 核磁共振区间孔隙度T2-BIN-B 核磁共振区间孔隙度T2-BIN-PR 核磁共振区间孔隙度T2GM T2分布对数平均值T2LM T2分布对数平均值TEMP 井温TH 钍THOR 钍TKRA 钍钾比TPOR 核磁共振总孔隙度TRIG 模式标志TS 横波时差TT1 上发射上接受的传播时间TT2 上发射下接受的传播时间TT3 下发射上接受的传播时间TT4 下发射下接受的传播时间TURA 钍铀比U 铀UKRA 铀钾比URAN 铀VAMP 扇区水泥图VDL 声波变密度VMVM 核磁共振自由流体体积VPVS 纵横波速度比WAV1 第一扇区的波列WAV2 第二扇区的波列WAV3 第三扇区的波列WAV4 第四扇区的波列WAV5 第五扇区的波列WAV6 第六扇区的波列WAVE 变密度图WF 全波列波形ZCORR 密度校正值测井曲线代码一览表常用测井曲线名称测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formationresistivity 冲洗带地层电阻率Ild deep investigate induction log深探测感应测井Ilm medium investigate induction log中探测感应测井Ils shallow investigate induction log浅探测感应测井Rd deep investigate double lateral resistivity log 深双侧向电阻率测井Rs shallow investigate double 浅双侧向电阻率测井lateral resistivity logRMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马常用测井曲线名称测井符号英文名称中文名称Rt true formation resistivity. 地层真电阻率Rxo flushed zone formation resistivity 冲洗带地层电阻率Ild deep investigate induction log 深探测感应测井Ilm medium investigate induction log 中探测感应测井Ils shallow investigate induction log 浅探测感应测井Rd deep investigate double lateral resistivity log 深双侧向电阻率测井Rs shallow investigate double lateral resistivity log 浅双侧向电阻率测井RMLL micro lateral resistivity log 微侧向电阻率测井CON induction log 感应测井AC acoustic 声波时差DEN density 密度CN neutron 中子GR natural gamma ray 自然伽马SP spontaneous potential 自然电位CAL borehole diameter 井径K potassium 钾TH thorium 钍U uranium 铀KTH gamma ray without uranium 无铀伽马NGR neutron gamma ray 中子伽马5700系列的测井项目及曲线名称Star Imager 微电阻率扫描成像CBIL 井周声波成像MAC 多极阵列声波成像MRIL 核磁共振成像TBRT 薄层电阻率DAC 阵列声波DVRT 数字垂直测井HDIP 六臂倾角MPHI 核磁共振有效孔隙度MBVM 可动流体体积MBVI 束缚流体体积MPERM 核磁共振渗透率Echoes 标准回波数据T2 Dist T2分布数据TPOR 总孔隙度BHTA 声波幅度BHTT 声波返回时间Image DIP 图像的倾角COMP AMP 纵波幅度Shear AMP 横波幅度COMP ATTN 纵波衰减Shear ATTN 横波衰减RADOUTR 井眼的椭圆度Dev 井斜。
LGY H05V-K 1.5mm2 100m 黑色电线说明书
Single wire LGY/H05V - K 1,50mm2 100m Color: Dark BlueThe offered wire has a flexible, multi-strand conductor with a cross-section of1,50 mm2 insulated with new generation polyvinite PVC. Thanks to its outstanding performance, it is a great choice for any professional who relies on excellent quality, reliability and convenience of use. This flexible, well-laying, resistant to surrounding conditions and user-oriented product is ideal for even the most advanced production projects and any assembly, service and hobby work.Wire technical parameters :Product normative classification LGY/H05V-K PRO SeriesThe rated cross-section of the conductor 1,50mm2Wire cross-section in AWG AWG 16Manufacturer part number BQ MPN LGY1.5-BDStructure of twisted multi-wire conductor 30 x ∅ 0,25mmConstruction of conductor Regularly twisted strandConductor material Copper CuConductor resistance at T=20o C max.12,7 ÷ min. 11,7 mΩ/mInsulating material Modified polyvinite PVCOuter diameter of wire ∅ 2,4mm ± 0,05Type of color insulation Plain colorWire insulation color and RAL number RAL 5013Dark BlueApproximate net weight of wire 16,6 kg/kmCopper index – conductor net weight 14,4 kg/kmResistance to vibration, oscilation, overload YESResistance to lubricants and chemical agents YESResistance to flame spreading YES – Self extinguishing typeMethod of electrical assembly and connecting Crimping, Soldering, TwistingPermissible current load of the cable 14,7 A (max. 15 A)Long-term current capacity of the cable 7,9 AMaximum cable operating voltage 500 VBreakdown voltage of the insulation > 9,0kVOperating temperature range of the cable -40o C÷+105o C (max. +120o C)Section in packaging 100 metersApproximate gross weight of the package 1,78 kgPackaging - way of wire confection Evenly winded onto a spoolPackaging material and dimensions - spools ABS = 132mm / H = 77mmPackaging logistical security Thermo-shrinkable POF film coverWe guarantee constant availability of items in stock and immediate shipping! Single wires LGY 300V/500V / H05V-K with BQ logo guarantee not only the highest global product quality and the latest technologies of workmanship taking into account environmental protection, but also provide convenience of usage and savings coming from reliability. Thanks to the use of highest quality copper, with specifically raised pureness in our regularly twisted strands with cross sections of 0,35mm2, 0,50mm2, 0,75mm2, 1,00mm2, 1,50mm2 and 2,50mm2 and their regularity, LGY/H05V-K wires provided by BQ guarantee almost lossless transmission of sent signal or current, significant facilitation of soldered and crimped assembly, resistance to vibration and oscillation and outstanding pliability and flexibility.BQ new generation of modified polyvinite insulation is specially thinned to guarantee a smaller outer diameter of the wire at the same cross-section of the conductive vein with holding all dielectric parameters and operating voltage of up to 500V. This allows for better planning of electrical harnesses and more efficient use of cable glands. This is possible thanks to the increased physicochemical properties of insulation, which further makes offered wires perfectly cope with the surrounding conditions and aggressive chemical agents. The insulation is extremely smooth and glossy, is not absorbent, does not harden and does not crumble, and allows an unprecedented operating temperature in the range of -40°C to +105°C(max +120°C). This increased thermal range also reduces installation time and significantly decreases the risk of insulation melting when making high-current soldered connections or encapsulating connections with shrink pipes.A very wide range of plain colors insulation and hudge range of two-color variety types in the form of a base color and marker stripe significantly save on wire marking systems in multi-wire harnesses, eliminate the need for cable markers and allow quick identification of a given wire along the entire length of the harness, even in hard-to-reach places. The cables are supplied in sections of 200m, 100m or 50m depending on the cross section of the wire, and winded onto a fully recyclable, comfortable-to-use spool with diameter of Ø = 132mm with internal guide hole Ø = 26mm, which allows you to increase the comfort of work, ending the problem with finding the end of the wire or laborious untangling after uncontrolled expansion. It greatly accelerates and facilitates the execution of multi-wire harnesses, because it is enough to put spools with a set number of wires on one guide rod and pull them all together and, as you develop, connect them into a bundle with the appropriate electrical tape, self-clamping bands or passing them through the corrugated conduit. BQ equip all spools with test seals to help you quickly find the beginning of the cable section and pack them in a sealed cover made of transparent shrink film, which allows you to quickly find the necessary color on the shelf of the warehouse, protects insulation from oxidation, dust or getting dirty during storage and alwaysguarantees the final recipient the highest quality of the cables when removed from the package.The parameters of the cables meet the requirements of ISO 9001, ISO 14001, PN-87/E-90054 (Polish standard), VDE (German standard), BASEC (UK standard), are authorized for use on EU markets (73/23/EEC standard) and CE marked (Directive 2006/95/EC), and comply with environmental directives RoHS(Act 2002/95/EU), RoHS-2(Act 2011/65/EU), RoHS-3(Act 2015/863) and comply with REACH environmental requirements (Regulation 1907/2006). According to EN 60332-1-2, the cables are Eca grade, do not spread flame and are approved for usage in construction works.At each request of the Recipient, we issue a certificate of conformity free of charge.Offered single wires are universally applicable thanks to their professional design & performance and are ideal for most manufacturing, service or hobby projects in all areas of electronics and electrical engineering. They are most oftenly used in industrial and electromedical automation, automotive industry, cranes, lighting, construction of all kinds of devices from alarms, scales, arcade machines or sunbeds to advanced technological lines, when making power lines, steering, control, executive installations, on-board installations, alarms and many other applications. They are also often used in the manufacture, modernization, modification or reconstruction of all types of vehicles: electric scooters and electric skateboards, mopeds, motorbikes, quads, buggies, cars and trucks, special vehicles (taxis, ambulances, fire trucks, cranes, tow trucks, loading lifts etc.), buses, tractors, semi-trailers, trailers, trams, trains, and they can be found even on inland yachts and speedboats, powered hang gliders or sailplanes. They are also oftenly used to control and power energy-efficient LED lighting systems, connect computer controllers to receivers, implement smart building projects, and for any service and hobby work.LGY/H05V-K wires provided by BQ are an excellent solution for any professional who values quality and convenience of use in wires. The use of these wires is simple, fast, economical and guarantees perfect reliability.。
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80 23 23
(7) φ6.5 C E C
34
C
E
C 12Βιβλιοθήκη E1 B1B1M5
Tab#110, t=0.5 E1
6.5
31
LABEL
(8)
22.5
Feb.1999
元器件交易网
MITSUBISHI TRANSISTOR MODULES
QM100HY-2H
MEDIUM POWER SWITCHING USE
40
DC CURRENT GAIN hFE
0
Tj=25°C Tj=125°C
0
1
2
3
4
5
10 0 2 3 4 5 7 10 1 2 3 4 5 7 10 2 2 3 4 5 7 10 3
COLLECTOR-EMITTER VOLTAGE
VCE (V)
COLLECTOR CURRENT IC (A)
VCE (sat), VBE (sat) (V)
—
Mounting torque Mounting screw M6
—
Weight
Typical value
ELECTRICAL CHARACTERISTICS
Symbol ICEX ICBO IEBO VCE (sat) VBE (sat) –VCEO hFE ton ts tf Rth (j-c) Q Rth (j-c) R Rth (c-f) Thermal resistance (junction to case) Contact thermal resistance (case to fin) Switching time Parameter Collector cutoff current Collector cutoff current Emitter cutoff current Collector-emitter saturation voltage Base-emitter saturation voltage Collector-emitter reverse voltage DC current gain
10 2 7 5 3 2 10 1 7 5 3 2 VCC=600V IB1=–IB2=2A Tj=25°C Tj=125°C ts
3
SWITCHING TIME
ton, ts, tf (µs)
2
IC=50A IC=70A
1
Tj=25°C Tj=125°C 0 10 –2 2 3 4 5 7 10 –1 2 3 4 5 7 10 0 2 3 4 5 7 10 1
COMMON EMITTER INPUT CHARACTERISTIC (TYPICAL)
10 1 7 5 4 3 2 10 0 7 5 4 3 2 10 –1 1.8 2.2 2.6 3.0 3.4 3.8
SATURATION VOLTAGE CHARACTERISTICS (TYPICAL)
10 1 7 5 4 3 2
REVERSE COLLECTOR CURRENT VS. COLLECTOR-EMITTER REVERSE VOLTAGE (DIODE FORWARD CHARACTERISTICS) (TYPICAL) 3
Zth (j–c) (°C/ W)
0.15
0.1
10 2 7 5 3 2 10 1 7 5 3 2 10 0 0 0.4 0.8 1.2
QM100HY-2H
MEDIUM POWER SWITCHING USE
INSULATED TYPE
SWITCHING TIME VS. BASE CURRENT (TYPICAL)
10 2 7 5 4 3 2 10 1 7 5 4 3 2 10 0 10–1 VCC=600V IB1=2A IC=100A
200 µS
10 1 7 5 3 TC=25°C 2 NON–REPETITIVE 10 0 10 0 2 3 4 5 7 10 1 2 3 4 5 7 10 2 2 3 4 5 7 10 3
COLLECTOR-EMITTER VOLTAGE
COLLECTOR REVERSE CURRENT –IC (A)
2 3 4 5 7 10 0
2 3 4 5 7 10 1
0
0
200
400
600
800
1000
BASE REVERSE CURRENT –IB2 (A)
COLLECTOR-EMITTER VOLTAGE
VCE (V)
FORWARD BIAS SAFE OPERATING AREA
10 3 7 5 3 2 10 2 7 5 3 2 100 tw=50µS 100µS 90
0.05 0 10 –3 2 3 4 5 710 –2 2 3 4 5 710 –1 2 3 4 5 7 10 0
Tj=25°C Tj=125°C 1.6 2.0
TIME (s)
COLLECTOR-EMITTER REVERSE VOLTAGE –VCEO (V)
DERATING FACTOR OF F. B. S. O. A.
COLLECTOR CURRENT IC (A)
DERATING FACTOR (%)
80 70 60 50 40 30 20 10 0 0 20 40 60 COLLECTOR DISSIPATION
SECOND BREAKDOWN AREA
APPLICATION Inverters, Servo drives, DC motor controllers, NC equipment, Welders
OUTLINE DRAWING & CIRCUIT DIAGRAM
Dimensions in mm
94 (7) 23
10.5 13 10.5
(Tj=25°C, unless otherwise noted)
Conditions IC=1A, VEB=2V VEB=2V Emitter open Collector open DC DC (forward diode current) TC=25°C DC Peak value of one cycle of 60Hz (half wave) Ratings 1000 1000 1000 7 100 100 800 5 1000 –40~+150 –40~+125 Charged part to case, AC for 1 minute Main terminal screw M5 2500 1.47~1.96 15~20 1.96~2.94 20~30 210 Unit V V V V A A W A A °C °C V N·m kg·cm N·m kg·cm g
BASE CURRENT IB (A)
VCE=2.8V Tj=25°C
VBE(sat)
SATURATION VOLTAGE
10 0 VCE(sat) 7 5 4 3 IB=2A 2 Tj=25°C 10 –1 Tj=125°C 2 3 4 5 7 10 1 2 3 4 5 7 10 2 2
BASE-EMITTER VOLTAGE
元器件交易网
MITSUBISHI TRANSISTOR MODULES
QM100HY-2H
MEDIUM POWER SWITCHING USE
INSULATED TYPE
QM100HY-2H
• • • • •
IC Collector current ........................ 100A VCEX Collector-emitter voltage ......... 1000V hFE DC current gain............................... 75 Insulated Type UL Recognized Yellow Card No. E80276 (N) File No. E80271
(Tj=25°C, unless otherwise noted)
Limits Test conditions VCE=1000V, VEB=2V VCB=1000V, Emitter open VEB=7V IC=100A, IB=2A –IC=100A (diode forward voltage) IC=100A, VCE=2.8V/5V Min. — — — — — — 75/100 — VCC=600V, IC=100A, IB1=–IB2=2A — — Transistor part Diode part Conductive grease applied — — — Typ. — — — — — — — — — — — — — Max. 2.0 2.0 400 2.5 3.5 1.8 — 3.0 15 3.0 0.155 0.65 0.075 Unit mA mA mA V V V — µs µs µs °C/ W °C/ W °C/ W
Feb.1999
元器件交易网
MITSUBISHI TRANSISTOR MODULES
QM100HY-2H
MEDIUM POWER SWITCHING USE
INSULATED TYPE
PERFORMANCE CURVES
COMMON EMITTER OUTPUT CHARACTERISTICS (TYPICAL)
REVERSE BIAS SAFE OPERATING AREA
200
COLLECTOR CURRENT IC (A)
ts, tf (µs)
175 IB2=–2A 150 IB2=–5A 125 100 75 50 25
Tj=125°C
SWITCHING TIME